JP5037099B2 - Audio processing device and display device including the same - Google Patents

Description

  The present invention relates to an AV (Audio Visual) device that enables an audio signal input from an input terminal to be an audio signal output of an AV device. Furthermore, the present invention relates to an AV apparatus that can convert an externally input audio signal into an audio signal that matches the output method of the AV apparatus.

  Currently, the music viewing style has changed significantly. A user stores a large amount of compressed music files in various portable music players (hereinafter referred to as “mobile audio”) represented by MP3 (MPEG Audio Layer-3) players and HDD (Hard Disk Drive) players. And I watch a favorite song from that. Since it is possible to save a large amount of songs in mobile audio in this way, users can listen to their favorite songs at any time by saving all their favorite songs in mobile audio It has become. In recent years, by storing and updating audio contents of radio programs in mobile audio, it is possible to view not only music but also audio contents with mobile audio. Thus, mobile audio is establishing its position as an archive center for user content.

  By the way, mobile audio is a portable music player, and usually listens to music using earphones or headphones. For this reason, for example, in a room at home, it is usually impossible to connect the mobile audio as it is to the AV device currently being viewed by the user and listen to the stored music with realistic and powerful sound. In some cases, it may be possible to listen to music stored in mobile audio with great sound by connecting to an external speaker, but there is a problem that a dedicated AV amplifier and speaker must be prepared, and AV equipment There is a problem that requires a coordinated operation of the AV amplifier and a problem that there is no affordable place to install the speaker.

  On the other hand, recently, large-sized flat-screen TVs have been increasing, and it is expected that they will be further expanded toward full digital broadcasting in the next few years. Especially in large digital televisions that can receive digital broadcasts, the internal audio processing circuit can be converted into a digital amplifier and output to a large high-performance speaker for high-quality sound and powerful audio reproduction. However, such high performance speakers were not used efficiently when they were not watching TV. Also, the sound quality of the speakers attached to recent AV devices has been improved. So, by connecting mobile audio to a TV or the like that has been placed in the room, you can solve the problems of installation location and troublesome operation, and you can watch music at powerful volume and save it to mobile audio A new viewing method for playing music that has been played with simple operation is conceivable.

However, for example, when outputting an externally input audio signal such as “video input” from a television speaker or the like in a television or the like, the user has to perform input mode switching processing through a remote controller or the like. Further, in Patent Document 1, when the input source is changed based on the viewing history of the past user, it is possible to more quickly and easily shift to the screen layout and the audio output mode suitable for the user's preference. An invention relating to an information output control device is disclosed.
Japanese Patent Laid-Open No. 2002-185881

  When outputting the audio output mode according to the user's preference as in the prior art, there is a problem that the user's viewing history must be referred to and the procedure is complicated. In addition, even when the user wants to listen to the sound input from the outside through the TV, it is necessary to perform various processes such as switching the input mode, and the user cannot enjoy music input from the outside quickly. There is.

  In addition, the information output control device of Patent Document 1 changes the audio output destination and the like, and the volume level / audio balance and the like cannot be changed. Also, since many mobile audio usage environments have been assumed to be used outdoors, it has been unusable when operated in conjunction with an existing AV device indoors. For this reason, there has been a demand for more easily using mobile audio to view music and the like by effectively using existing AV devices even at home. In addition, the built-in speakers of personal computers and mobile audio have a small caliber and cannot be said to be of good quality. In addition, when listening to music, etc., through the speakers of an external device, the optimal volume / audio volume balance is different when listening with headphones, etc., and when listening indoors. There were a lot of things that didn't happen.

  Accordingly, the present invention has been made in view of such problems, and an object thereof is to provide an AV apparatus capable of easily and quickly switching the output of an audio signal when an external audio signal is detected. And It is another object of the present invention to provide an AV apparatus having a connection terminal with an external audio apparatus and capable of adjusting an audio signal in order to improve convenience during viewing.

  Therefore, in the present invention, in order to solve such a problem, an input terminal for inputting an external audio signal, a detection unit for detecting insertion / removal of a plug with respect to the input terminal, and input of an AV signal acquired internally An AV signal input unit, an audio signal transfer unit for transferring an audio signal to the audio signal processing circuit, and selecting one of the input terminal and the AV signal input unit to connect to the audio signal transfer unit And a switch control unit that performs switch control for connecting the input terminal to the audio signal transfer unit when the detection unit detects the insertion of the plug into the input terminal. . With this configuration, when a plug is inserted into the input terminal, the output of the audio signal is switched without any special setting, so external audio and music such as music stored in mobile audio is powerful. It can be heard with sound.

  The audio signal transfer unit may include a monitor output transfer means for transferring an audio signal to the monitor output processing circuit, and further a lock signal for acquiring a lock signal for locking the switch switching. In the case where the AV signal input unit is connected to the audio signal transfer unit by a switch and the lock signal acquisition unit acquires a lock signal, the switch control unit may include an acquisition unit. Even if the detection result at the detection unit is a detection result that the insertion of the plug has been detected, switch control is performed so that the audio signal input to the input terminal is not connected to the monitor output transfer means in the audio signal transfer unit. You may have a lock switch control means. With such a configuration, for example, when a television program is recorded in video, the externally input mobile audio sound signal does not have to be output as a monitor. In addition, the switch control unit, when the audio signal input from the input terminal is connected to the audio signal transfer unit by a switch and detects the removal of the plug by the detection unit, You may have an extraction detection switch control means which switches the input terminal connected to a transfer part from an input terminal to an AV signal input part. With this configuration, when the audio signal output from the AV apparatus is returned from the external audio signal to the normal audio signal, the process can be completed simply by removing the plug.

  In addition, the present invention has an input terminal for inputting an external audio signal, and the audio signal input to the input terminal is set to a predetermined volume level without depending on the volume level / volume balance of the audio signal. Provided is an AV apparatus that adjusts to an audio signal. Furthermore, the present invention provides an AV apparatus that adjusts an audio signal such as an appropriate volume level / volume balance for each output terminal when there are a plurality of types of output terminals. The present invention also provides an AV apparatus that adjusts audio signals such as an appropriate volume level / audio balance for each input terminal when there are a plurality of types of input terminals.

  In addition, the present invention provides an AV apparatus that holds a plurality of types of volume adjustment functions and can set a volume level for each output terminal or input terminal using the volume adjustment function. Similarly, an AV apparatus is provided which can hold a plurality of types of volume balance adjustment functions and set the volume balance for each output terminal or input terminal using the volume balance adjustment functions. Furthermore, the present invention provides an AV apparatus capable of storing a volume level / audio balance at the end of input of an audio signal to an input terminal.

  Further, the present invention determines the presence or absence of external connection by detecting plug insertion / extraction to / from the input terminal, and the audio signal input to the input terminal does not depend on the volume level / audio balance of the audio signal. Provided is an AV apparatus that adjusts an audio signal such as a predetermined volume level / audio balance. Furthermore, the present invention provides a method for operating the AV device.

  According to the present invention, when an insertion of a plug into an input terminal is detected, the input terminal is connected to an audio signal transfer unit for transferring to an audio signal processing circuit, so that an external audio signal can be sent to the AV apparatus according to the insertion / extraction of the plug Audio output can be used. For this reason, by connecting a plug from a mobile audio or the like to the input terminal, music stored in the mobile audio or the like can be enjoyed with a powerful volume. Further, since the audio output signal can be switched only by inserting / removing the plug, processing such as changing the input mode is unnecessary, and convenience is improved. In addition, by not connecting the signal from the input terminal to the monitor output transfer means at the time of monitor output, the audio signal of the content being output to the monitor can be controlled appropriately while outputting the externally input audio signal from a speaker etc. Can do.

  In addition, the AV device of the present invention allows the user to view music or the like at a predetermined volume level / volume balance without depending on the volume level / volume balance set by an external device such as mobile audio. When an external device is connected to an AV device to listen to music or the like, it is possible to solve problems such as the volume being too high, the sound being inaudible, and the treble being too emphasized. As a result, it is possible to reduce the annoyance that the setting must be changed every time the external apparatus is connected to the AV apparatus. Further, according to the AV apparatus of the present invention, it is possible to set the volume level / volume balance for each output device, so the volume level suitable for the performance of the output device, the size of the room, and the user's preference. / Volume balance can be provided.

Embodiments of the present invention will be described below with reference to the drawings. In addition, this invention is not limited to these embodiment, In the range which does not deviate from the summary, it can implement with a various aspect. Embodiments 1 to 3 are reference embodiments. The fourth embodiment will mainly describe claims 1, 2, 11 , and 14 . The fifth embodiment will mainly describe claims 1 and 6 . The sixth embodiment will mainly describe claims 2 and 7 . The seventh embodiment will mainly describe Claims 3, 8 , 12 , and 15 . The eighth embodiment will mainly describe claims 4, 9 , 13 , and 16 . The ninth embodiment will mainly describe claims 5 and 10 .

<< Embodiment 1 >>
<Outline of Embodiment 1>
The present embodiment relates to an AV apparatus capable of outputting an audio signal input from an input terminal as an audio signal output when plug insertion is detected at the input terminal. FIG. 1 is a diagram illustrating an example of the concept of the present embodiment. In FIG. 1, an input terminal (0103) described as “mobile audio” is provided on the front surface of a liquid crystal television (0101) that is an AV apparatus, next to an audio output terminal (0102) for headphones. When a plug (0107) of a cable connected to an output terminal such as “headphone” (0105) or “line out” (0106) of the mobile audio terminal (0104) is inserted into this input terminal, The audio output of the LCD television is switched to the audio output of the mobile audio terminal. For this reason, it is possible to listen to music stored in the mobile audio terminal using a liquid crystal television or the like normally installed at home or the like in a powerful acoustic environment.

<Configuration of Embodiment 1>
FIG. 2 shows an example of functional blocks in the present embodiment. The “AV device” (0200) of this embodiment shown in FIG. 2 includes an “input terminal” (0201), a “detection unit” (0202), an “AV signal input unit” (0203), and an “audio signal transfer”. Part "(0204)," switch "(0205), and" switch control part "(0206).

  Each part and each means, which are constituent elements of the present invention, are configured by either hardware, software, or both hardware and software. For example, as an example for realizing these, when a computer is used, hardware composed of a CPU, a memory, a bus, an interface, a peripheral device, and the like, and software executable on these hardware are listed. be able to. Specifically, the functions of each part are realized by processing, storing, and outputting data on the memory and data input via the interface by sequentially executing the program expanded on the memory (this book) The same applies throughout the specification).

  The “AV device” (0200) refers to a device that can output at least an audio signal, and may be a device that can display an image together. Examples include various television devices such as liquid crystal televisions and plasma televisions, component devices such as home theaters, personal computers, audio players, and car audios. These are usually installed at the user's home or the like, and can output audio signals at a high volume. Therefore, by connecting mobile audio to such an AV device, mobile audio can be output. It is possible to listen to music stored in a powerful sound environment. Details will be described later.

  The “input terminal” (0201) is a terminal for inputting an external audio signal from which a plug can be inserted and removed. The “plug” refers to a plug portion at the tip of a cable connected to a headphone terminal or a line-out terminal of a mobile audio, for example. Plug types include i. LINK (registered trademark) (AUDIO) input terminal, RCA coaxial digital input terminal, rectangular optical digital input terminal, RCA analog input terminal, AV input terminal, S terminal, component terminal, D terminal, HDMI terminal, Dolby digital RF input terminal Various input terminals can be used. Specific examples include generally used 3.5 mm and 5.5 mm audio terminals, but a 3.5 mm audio terminal is particularly desirable. This is because, since AV devices such as televisions are becoming thinner, 3.5 mm plugs are often used. In the case of wireless, radio waves, infrared rays, optical communication, etc. can be used. The “external audio signal” is an audio signal input from the outside of the AV apparatus. Specifically, it is mainly an audio signal input from mobile audio, but an external audio signal is not necessarily limited to a signal from mobile audio, has an audio output function, and can be connected to an AV device. Any signal from the device may be used. An audio signal from any device such as an IC recorder or a DVD player may be used as long as the audio signal is input from the outside. In the AV apparatus of the present invention, the position of the input terminal is not particularly limited, but it is desirable to provide the input terminal on the front side of the AV apparatus as shown in FIG. Thereby, for example, even when a large liquid crystal television is installed close to the wall, the plug can be easily inserted and removed, and convenience for the user is improved.

  The “detector” (0202) is configured to detect plug insertion / extraction with respect to the input terminal. “Detecting plug insertion / extraction” means detecting plug insertion / extraction. Specifically, first, predetermined signals are collected periodically. When the plug is inserted, the terminal is in a LOW state that physically indicates a connected state, and when the plug is removed, the terminal is in a HIGH state that indicates a non-connected state. The change in the collected signal changes and plug insertion / extraction can be detected. The determination unit can detect whether or not there is an external connection by detecting the insertion of the plug by the arrival of a signal not only when the plug is inserted or removed but also when the AV apparatus is turned on when the plug is inserted. It may be.

  The “AV signal input unit” (0203) is a terminal circuit for inputting an AV signal acquired internally. “Internal acquisition” means acquisition within the AV apparatus, and means acquisition through a system different from the input terminal (0201). The “internally acquired AV signal” includes, for example, a video signal and an audio signal of a broadcast program acquired via an internal or external tuner or an Internet line. In addition, video signals and audio signals acquired from video playback devices such as videos and DVDs externally connected to the AV device are also included.

  The “audio signal transfer unit” (0204) is a terminal circuit for transferring an audio signal to the audio signal processing circuit. The “audio signal processing circuit” is a circuit that processes an audio signal output from the AV apparatus. When an audio signal is sent to the audio signal processing circuit, the AV apparatus outputs the audio signal from its own speaker or the like. That is, an externally or internally input audio signal can be converted into an output signal of the AV device by passing through the audio signal transfer unit. Note that the audio signal processing circuit is capable of processing an audio signal output from the headphone terminal of the AV apparatus in addition to the audio output from the speaker.

  The “switch” (0205) is used to select either the input terminal or the AV signal input unit and connect it to the audio signal transfer unit. In this way, the input terminal or the AV signal input unit is alternatively connected to the audio signal transfer unit by the switch.

  The “switch control unit” (0206) performs switch control for connecting the input terminal to the audio signal transfer unit when the detection unit detects the insertion of the plug into the input terminal. That is, when plug insertion is detected at the input terminal, the external audio signal is used as an audio signal output of the AV device, and a system speaker (not shown) such as a built-in speaker (not shown) of the main body or an externally connected AV amplifier Can be played from. For this reason, the user can input an external audio signal only by inserting a plug, for example, by operating the remote control device without changing settings such as the input mode of the AV device (for example, video 1 and video 2). Can be used as an audio signal output of the AV apparatus. More specifically, the switch control unit includes a memory such as a ROM that stores a plurality of programs, and a CPU that executes the programs. When the program for monitoring the signal periodically transmitted by the insertion detection of the plug described above detects that the periodically transmitted signal is in the LOW state, the CPU transmits a sound to the switch. Outputs a command to connect the signal transfer unit to the input terminal. In this way, the switch control unit realizes switch control. Although the above description is an example of using a program, similar processing can be realized by a switch control circuit incorporating these processing.

  FIG. 3 is a diagram schematically showing an AV apparatus according to the present embodiment. First, in the AV apparatus (0300), an AV signal input unit (0304) that inputs an AV signal acquired internally through a tuner (0303) is connected to an audio signal transfer unit (0307) by a switch (0305). Has been. The audio signal transfer unit (0307) transfers the AV signal as an audio signal to the audio signal processing circuit (0308). Here, when the plug (0301) of the cable connected to the mobile audio is input to the input terminal (0302) from the outside of the AV apparatus, the switch control unit (0306) inputs the AV signal to the switch (0305). Switching from the unit (0304) to the input terminal (0302) is performed. Thereby, the external audio signal becomes an audio output signal from the AV apparatus. As described above, when a plug is inserted into the input terminal, the processing of the audio signal is automatically switched. Therefore, the user can simply play the external sound (for example, mobile audio) by inserting the plug. Music) from the speaker of the AV device.

<Processing flow of Embodiment 1>
FIG. 4 is a diagram illustrating an example of a processing flow in the present embodiment. First, it is determined whether or not the detection unit detects the insertion of the plug into the input terminal (S0401). If insertion of a plug is detected in step S0401, the input terminal is connected to the audio signal transfer unit (S0402). On the other hand, if there is no plug insertion detection in step S0401, no switch control processing is performed.

<Effect of Embodiment 1>
In the AV apparatus according to the present embodiment, when the insertion of the plug into the input terminal is detected, the external audio signal is automatically converted into the audio output signal of the AV apparatus by connecting the input terminal to the audio signal transfer unit. Can be switched automatically. For this reason, it becomes possible for the user to use the external input sound as the output sound of the AV device only by inserting the plug without changing the setting of the input mode, and the music stored in the mobile audio can be stored in the AV device. It is possible to listen to the presence and powerful sound through the speakers.

<< Embodiment 2 >>
<Outline of Embodiment 2>
In the present embodiment, even when a plug is inserted into the input terminal, an audio signal output to the recording device, for example, when there is a content being reserved for recording from the AV device to the recording device, The present invention relates to an AV apparatus that performs processing that does not use an externally input audio signal.

<Configuration of Embodiment 2>
FIG. 5 shows an example of functional blocks in the present embodiment. The “AV device” (0500) of this embodiment shown in FIG. 5 includes an “input terminal” (0501), a “detection unit” (0502), an “AV signal input unit” (0503), and an “audio signal transfer”. Part "(0504)," switch "(0505)," switch control part "(0506), and" lock signal acquisition part "(0508). The “audio signal transfer unit” (0504) includes “monitor output transfer means” (0507). The “switch control unit” (0506) includes “lock switch control means” (0509).

  In this embodiment, the AV apparatus described in the first embodiment further includes a “monitor output transfer unit” (0507), a “lock signal acquisition unit” (0508), and a “lock switch control unit” (0509). It is characterized by having. Each configuration except for “monitor output transfer means” (0507), “lock signal acquisition unit” (0508), and “lock switch control means” (0509) is the same as that described in the first embodiment. Therefore, the description here is omitted.

  “Monitor output transfer means” (0507) is a terminal circuit for transferring an audio signal to the monitor output processing circuit. The “monitor output processing circuit” is a circuit that performs processing at the time of monitor output. “Monitor output” refers to outputting a video or audio signal from an AV apparatus to another externally connected apparatus. As a specific example, the case where the AV device is a television will be described. FIG. 6 is a diagram illustrating an example of cable connection when performing monitor output from a television having a tuner to a recording apparatus such as a DVD recorder. In the example of FIG. 6, the video output terminal and the audio output terminal provided on the rear portion of the television (0601) are connected to the input terminals of the recording device, and the output signal from the television is the recording device (0602). Input signal. For example, when recording digital broadcasting or the like, video and audio signals are output from the television to the recording device (monitor output). The recording apparatus records digital television programs by writing the output video and audio signals to a medium. Such a monitor output is realized by providing a circuit of a system different from a normal output system, such as a monitor output processing circuit. By having different circuits, even if the TV channel is switched, the video and audio signals that are output on the monitor are output in a fixed manner, so the content of the program you want to record is recorded as is. It is possible to do. The monitor output transfer means (0507) is for transferring an audio signal to the monitor output circuit that performs such monitor output.

  The “lock signal acquisition unit” (0508) acquires a lock signal for locking the switching of the switch. “Lock switch switching” refers to fixing the switch so that the switch (0505) is not switched even when plug insertion is detected at the input terminal, for example. The “lock signal” is a signal that is output when the AV apparatus is set to perform monitor output, for example.

  The “lock switch control means” (0509) detects the detection unit when the AV signal input unit is connected to the audio signal transfer unit by a switch and the lock signal acquisition unit acquires a lock signal. Even if the result is a detection result that the insertion of the plug has been detected, switch control is performed so that the audio signal input to the input terminal is not connected to the monitor output transfer means in the audio signal transfer unit. FIG. 7 is a diagram illustrating the concept of the relationship between the terminals and the like. In the previous stage of FIG. 7, it is assumed that the AV signal input unit is connected to the audio signal transfer unit, and the lock switch acquisition unit (not shown) has acquired the lock signal. In this case, when the detection unit detects the insertion of the plug into the input terminal, the switch controlled by the lock switch control unit is connected to the headphone output transfer unit or the speaker output transfer unit included in the audio signal transfer unit. Although the input terminal is connected, the input terminal is not connected to the monitor output transfer means (FIG. 7A). For this reason, since an external audio signal is not transferred from the monitor output transfer means to the monitor output processing circuit, it is possible to record a broadcast program while listening to external music such as mobile audio on an AV device. it can.

  Contrary to the above example, when the input terminal is connected to the audio signal transfer unit and the lock signal acquisition unit acquires the lock signal, the switch control unit is input to the input terminal. Switch control may be performed in which the audio signal is not connected to the monitor output transfer means in the audio signal transfer unit. That is, when the lock signal acquisition unit acquires the lock signal, switch control for connecting the AV signal input unit to the monitor output transfer unit may be performed by another switch outside the configuration of the present embodiment (see FIG. 7 (b)).

<Processing flow of Embodiment 2>
FIG. 8 shows an example of the flow of processing in this embodiment. Step S0801 is the same as that described in the first embodiment. If insertion of a plug is detected in step S0801, the process proceeds to step S0802, and it is determined whether a lock signal is acquired. If it is determined in step S0802 that the lock signal has not been acquired, the process proceeds to step S0804 to connect the input terminal to the audio signal transfer unit. Step S0804 is the same as that described in the first embodiment. On the other hand, if it is determined in step S0802 that the lock signal has been acquired, the process proceeds to step S0803, and the audio signal input to the input terminal is not connected to the monitor output transfer means. In other words, step S0803 is processing for connecting the input terminal to an audio signal transfer unit other than the monitor output transfer means.

<Effect of Embodiment 2>
The AV apparatus according to the present embodiment has monitor output transfer means for transferring an audio signal to the monitor output processing circuit. And when the lock signal is acquired, even if there is plug insertion detection at the input terminal, by performing switch control that does not connect the input terminal to the monitor output transfer means, The audio signal can be an internally acquired AV signal instead of an externally input audio signal. For this reason, even when a digital broadcast program or the like is being recorded on a recording device with a monitor output, even if mobile audio is connected to the input terminal of the AV device, the audio signal of the monitor output remains as it is in the digital broadcast program. This makes it possible to continue recording appropriate content, and to listen to music such as mobile audio with powerful and realistic sound using AV equipment speakers, etc. Is possible.

<< Embodiment 3 >>
<Outline of Embodiment 3>
In the present embodiment, when the audio signal input from the input terminal is the audio signal output from the AV apparatus due to the plug being inserted into the input terminal, The present invention relates to an AV apparatus characterized in that the sound is automatically switched to the sound of a broadcast program.

<Configuration of Embodiment 3>
FIG. 9 shows an example of functional blocks in the present embodiment. The “AV device” (0900) of this embodiment shown in FIG. 9 includes an “input terminal” (0901), a “detection unit” (0902), an “AV signal input unit” (0903), and an “audio signal transfer”. Part "(0904)," switch "(0905), and" switch control part "(0906). The switch control unit (0906) includes “extraction detection switch control means” (0907).

  The present embodiment is characterized in that the AV apparatus described in the first or second embodiment further includes “extraction detection switch control means” (0907). Since the components other than “extraction detection switch control means” (0907) are the same as those described in the first or second embodiment, description thereof is omitted here.

  The “extraction detection switch control means” (0907) is configured to extract the plug from the input terminal by the detection unit in a state where the audio signal input from the input terminal is connected to the audio signal transfer unit by the switch. Is detected, the input connected to the audio signal transfer unit is switched from the input terminal to the AV signal input unit. As already described, when the detection of the insertion of the plug into the input terminal is detected by the detection unit, the switch control for connecting the input terminal to the audio signal transfer unit is performed. When the plug is further extracted, switch control for connecting the AV signal input unit to the audio signal transfer unit is performed. For example, a user who has listened to music using mobile audio as external sound can listen to the sound of the original broadcast program by simply pulling out the plug when the user wants to view the broadcast program. In this way, since the output sound from the AV apparatus is switched only by inserting or removing a simple plug, the user can listen to external music or the like without performing complicated settings, Audio can be viewed. Note that when the plug is extracted, as described above, the signal collected periodically changes from LOW to HIGH, so that the extraction of the plug can be detected.

<Processing flow of Embodiment 3>
FIG. 10 is a diagram showing an example of the flow of processing in the present embodiment. The processing flow up to step S1002 is the same as that described in the first embodiment. Note that the steps described below can be added to the second embodiment. In step S1003, it is determined whether there has been a detection of plug removal at the input terminal. If plug removal is detected, the process advances to step S1004 to switch the input terminal connected to the audio signal transfer unit from the input terminal to the AV signal input unit.

<Effect of Embodiment 3>
In the AV apparatus according to the present embodiment, when the plug is detected when the input terminal is connected to the audio signal transfer unit, the input connected to the audio signal transfer unit is set to the AV signal input unit. By switching, it is possible to return to the audio output before the plug is inserted. For this reason, the external audio signal can be used as the audio output of the AV apparatus only by inserting and extracting the plug, which improves convenience for the user.

<< Embodiment 4 >>
<Outline of Embodiment 4>
The volume level / volume balance of the audio signal output from the external device varies depending on the model and user settings. When the external device is connected to the AV device, the volume level according to the setting of the external device / If sound is output due to a volume balance or the like, the sound volume may be too high, conversely too low, or the high sound may be too loud. According to the AV apparatus of this embodiment, an audio signal input to the AV apparatus is adjusted to an appropriate volume level / volume balance or the like and output, regardless of the volume level / volume balance setting or the like on the external audio apparatus side. be able to.

  Embodiment 4-1 describes an AV apparatus capable of performing adjustment relating to the volume level, and Embodiment 4-2 describes an AV apparatus capable of performing adjustment relating to volume balance and the like.

<Configuration of Embodiment 4-1>
FIG. 11 shows an example of functional blocks in the present embodiment. The “AV device” (1100) of the present embodiment includes an “input terminal” (1101), a “fixed level information holding unit” (1102), and an “audio signal adjustment unit” (1103).

  The “voice signal” input to the “input terminal” (1101) of the present embodiment is information such as a volume level and a frequency that determines the volume and level of the sound output from the external device. It may be a signal or a digital signal. In the case of a digital signal, either a compressed signal or an uncompressed signal may be used. In the case of an analog signal, A / D conversion is performed and subsequent processing is performed. “External device” refers to a device that has an audio output function such as mobile audio, IC recorder, and DVD player as described above and can be connected to an AV device.

  The “fixed level information holding unit” (1102) is configured to hold fixed level information that is information for determining a predetermined volume level. “Volume level” refers to the maximum voltage value that determines the volume of sound. “Fixed level information” is information that determines a predetermined volume level, and is information that gives one volume level. The fixed level information holding unit holds one volume level information such as 10 V as a default value so as to obtain an appropriate volume level according to the environment in which the AV device is used.

  When there is an external connection at the input terminal, the “sound signal adjustment unit” (1103) determines the sound signal input to the input terminal based on the fixed level information without depending on the volume level of the sound signal. The adjusted audio signal is adjusted to be determined. “Independent of the volume level of the audio signal” means that the audio signal is input regardless of the volume level of the external audio signal. The “adjusted audio signal” is an audio signal having a predetermined volume level determined based on fixed level information held in the fixed level information holding unit. For example, when the fixed level information holding unit holds fixed level information of 10 V and an audio signal having a volume level of 5 V is input from the input terminal, the audio signal adjusting unit outputs the volume of the input audio signal. Adjust to an adjusted audio signal with a level of 10V. Conventionally, when an audio signal is amplified on the external device side and the audio signal is amplified and output again on the AV device side, the audio signal is amplified again, and the volume may be higher than expected. . On the other hand, when the external device side does not sufficiently amplify the signal and inputs it to the AV device, the sound signal may not be sufficiently amplified and the volume may be felt low. The audio signal adjustment unit adjusts the volume level so that it can always be output at a constant volume level regardless of the specifications and settings on the external device side by adjusting to the adjusted audio signal determined based on the fixed level information. .

  FIG. 12 is a schematic diagram illustrating an example of the configuration of the audio signal adjustment unit. In the configuration of this figure, the audio signal adjustment unit (1200) includes an “amplifier” (1201) and a “comparator” (1202). The “amplifier” (1201) amplifies the input sound volume level with a predetermined amplification coefficient. The “comparator” (1202) acquires the fixed volume level information (1203) and compares whether the volume level amplified by the amplifier is a fixed volume level. This operation is repeated with the amplification coefficient changed, and an audio signal is output when amplified to a fixed volume level.

A specific processing flow of the audio signal adjustment unit will be described with reference to FIG. The audio signal f ₁ (Vp-p) input to the input terminal is acquired (S1301). Next, fixed level information (Vmax) is acquired (S1302). It compares the Vp-p and Vmax, when Vp-p is less than Vmax amplifies the _{f 1} at (S1303YES), amplification factor Z (S1305) (S1305). The amplified Vp-p * Z and Vmax are compared, and when Vp-p * Z is smaller than Vmax (NO in S1306), the amplification coefficient Z is increased by one (S1308) and amplified again. This process is repeated, and Z is fixed when Vp-p * Z is larger than Vmax (S1303 YES) (S1307). The audio signal Vp-p which is input when greater than Vmax amplifies the _{f 1} at (S1303NO), amplification factor Z (S1309) (S1310). The amplified Vp-p * Z is compared with Vmax. If Vp-p * Z is larger than Vmax (NO in S1311), the amplification coefficient Z is reduced by one (S1312), and the signal is amplified again. This process is repeated, and Z is fixed when Vp-p * Z becomes smaller than Vmax (S1311 YES) (S1307).

<Processing Flow of Embodiment 4-1>
FIG. 14 shows an example of the processing flow of the embodiment 4-1. First, an audio signal input to the input terminal is acquired (S1401). Next, fixed level information, which is information for determining the volume level, is acquired (S1402). Finally, the audio signal input to the input terminal is adjusted to an adjusted audio signal determined based on the fixed level information without depending on the volume level of the audio signal (S1403).

  Specifically, when an input of a signal to the input terminal is detected, an audio signal is extracted from the input signal. For example, if the signal is accompanied by video, it is separated into a video signal and an audio signal, and only the audio signal is transmitted to the audio signal adjustment unit. If the input audio signal is an analog signal, it is converted to a digital signal. When the audio signal adjustment unit first receives an audio signal from the input terminal, the audio signal adjustment unit acquires fixed level information, which is information for determining the volume level, from the recording area. Next, the volume level of the input audio signal is converted into an adjusted audio signal that is an audio signal having a volume level determined by fixed level information. By outputting the converted adjusted sound signal by an output device or the like, it is possible to output sound having a constant volume regardless of the volume level of the external device.

<Configuration of Embodiment 4-2>
FIG. 15 shows an example of functional blocks in the present embodiment. In the present embodiment, instead of adjusting the volume level in the embodiment 4-1, the volume balance and the like are adjusted. The “AV device” (1500) of this embodiment includes an “input terminal” (1501), a “fixed balance information holding unit” (1502), and an “audio signal balance adjustment unit” (1503).

  The “fixed balance etc. information holding unit” (1502) is configured to hold information such as fixed balance which is information for determining the volume balance. “Volume balance etc.” refers to the degree of enhancement of pitches such as low, medium, and high pitches of audio determined by the frequency, speaker balance, and the like. The classification of the degree of pitch emphasis by frequency is not limited to those divided into these three bands, and may be further divided into five bands, or two bands of large bass and treble. Further, the frequency band may be more or one. The speaker balance is the degree of emphasis of each speaker. If there are two left and right speakers, the left or right volume can be increased. The balance of the two speakers. “Fixed balance information” is information representing a certain volume balance. For example, in the case of an AV apparatus that can set the balance of bass, treble, and left and right speakers, information such as a low tone ± 0 dB, a high tone ± 0 dB, and a balance ± 0 dB that are all set to the median as a general volume balance, When it is desired to emphasize the bass range, information such as bass +6 dB, treble ± 0 dB, balance ± 0 dB is held. The fixed balance etc. information holding unit holds fixed balance etc. information as a default value so as to obtain an appropriate volume balance etc. according to the environment in which the AV device is used. When attribute information such as music can be acquired in association with the audio signal input from the input terminal, information such as an optimal fixed balance that matches the attribute information may be acquired. The attribute information such as music is information such as pops, rocks, and classics.

  The “audio signal balance adjusting unit” (1503), when there is an external connection to the input terminal, the audio signal input to the input terminal does not depend on the volume balance of the audio signal, etc. It is configured to adjust to an adjusted audio signal such as a volume balance determined based on information. “Does not depend on the volume balance of the audio signal” means that the external device receives an input of an external audio signal regardless of the volume balance of the audio signal of the external device. . The “adjusted audio signal such as volume balance” is an audio signal such as a predetermined volume balance that is determined based on information such as fixed balance held in the fixed balance etc. information holding unit. In an AV device that can set the balance of bass, treble, and left and right speakers, the information such as fixed balance etc. holds information such as low tone ± 0 dB, treble ± 0 dB, and balance ± 0 dB with the median volume balance etc. Even if the setting of the volume balance or the like of the external audio device is set to low sound +2 dB, high sound ± 0 dB, balance ± 0 dB so as to emphasize the low frequency range, the sound signal balance adjustment unit adjusts the low sound ± 0 dB. It is adjusted to an adjusted audio signal such as a volume balance of high tone ± 0 dB and balance ± 0 dB.

  FIG. 16 is a schematic diagram illustrating an example of the configuration of an audio signal balance adjusting unit that adjusts the balance of the speakers. The adjustment of the frequency band balance can also be performed by the same principle as the adjustment of the balance of the speaker shown in FIG. In FIG. 16, a case is considered where two left and right (L, R) audio signals are input. As shown in this figure, the audio signal balance adjusting unit (1600) includes a “balancer” (1601) and a “comparator” (1602). The “balancer” (1601) corrects the volume balance and the like with a predetermined balance correction coefficient. The “comparator” (1602) acquires the fixed volume balance information (1603), and amplifies the volume balance corrected by the balancer using the fixed balance information. Then, an audio signal amplified to a volume balance such as a fixed balance is output.

FIG. 17 shows an example of the processing flow of a specific audio signal balance adjusting unit. The audio signal f ₁ (V _L , V _R ) input to the input terminal is acquired (S1701). Then, by comparing the _{V L} and _{V R,} one volume level _{f 2 (V LR, V LR} ) to (S1702). V _LR may be a either one of the volume level of the _{V L} or _{V R,} may be the average of the _{V L} and _{V R.} Subsequently, information W such as fixed balance is acquired (S1703). The f ₂ for amplifying at a fixed balance, etc. information W (S1704).

<Processing Flow of Embodiment 4-2>
FIG. 18 shows an example of the processing flow of the embodiment 4-2. First, an audio signal input to the input terminal is acquired (S1801). Next, information such as fixed balance, which is information for determining volume balance, is acquired (S1802). Finally, the audio signal input to the input terminal is adjusted to an adjusted audio signal such as a volume balance determined based on the fixed balance information without depending on the volume balance of the audio signal (S1803).

<Effect of Embodiment 4>
According to the AV apparatus of this embodiment, the audio signal of the external apparatus is adjusted to an appropriate volume level / volume balance, etc., and output without adjusting the volume level / volume balance, etc. on the external apparatus side. Thus, a loud sound is not suddenly output, and the troublesomeness that the user has to reset the volume every time the external apparatus and the AV apparatus are connected can be eliminated.

<< Embodiment 5 >>
<Outline of Embodiment 5>
Audio signal amplification processing may be performed by an external input device or output device, or may be performed by the AV apparatus. For this reason, a difference occurs in the volume level / volume balance and the like that are finally output from the output device depending on the combination of the output device and the AV apparatus. According to the AV apparatus of the present embodiment, an appropriate volume level / volume for each of a plurality of output terminals to which speakers, headphones, etc. of the AV apparatus are connected regardless of the setting of the volume level / volume balance on the external input device side. An audio signal such as a balance can be adjusted and output.

  Embodiment 5-1 describes an AV apparatus capable of performing adjustment relating to the volume level, and Embodiment 5-2 describes an AV apparatus capable of performing adjustment relating to volume balance and the like.

<Configuration of Embodiment 5-1>
FIG. 19 shows an example of functional blocks in the present embodiment. The “AV device” (1900) of the present embodiment is based on the embodiment 4-1, “input terminal” (1901), “fixed level information holding unit” (1902), and “audio signal adjustment unit” (1903). ), A “volume level information acquisition unit” (1904), an “audio signal readjustment unit” (1905), and an “output terminal” (1906), and the volume level information acquisition unit (1904) It has an output terminal volume level information acquisition means ”(1907), and the audio signal readjustment unit (1905) has“ first audio signal readjustment means ”(1908).

  The “volume level information acquisition unit” (1904) is configured to acquire volume level information that is information for determining the volume level. The volume level information may be information of a single value such as 10V, or may be information of increasing 5 dB. The sound volume level information may be acquired from a storage area in advance as a default value, or may be acquired by the user using an input means such as a remote controller.

  The “output terminal volume level information acquisition unit” (1907) is a unit included in the volume level information acquisition unit (1904) of the present embodiment, and is configured to acquire output terminal volume level information. “Output terminal volume level information” is information that determines the volume level for each output terminal. “Each output terminal” means every output device indirectly connected to the output terminal. The output terminal will be described later. The output terminal volume level information acquisition unit acquires information for determining one volume level for one output terminal. For example, information is obtained that decreases by 6 dB when outputting to a headphone terminal, and increases by 6 dB when outputting to an output terminal connected to a speaker.

  FIG. 20 is an example of a list representing output terminal volume level information in XML format. As shown in this figure, volume level data to be amplified is determined for each output terminal. For example, the output terminal 3 has output terminal volume level information “decrease 6 dB”.

  The “audio signal readjustment unit” (1905) is configured to readjust the adjusted audio signal adjusted by the audio signal adjustment unit to a readjusted audio signal determined based on the volume level information. Yes. “Readjusted audio signal” means that the adjusted audio signal adjusted by the audio signal adjustment unit is adjusted to an audio signal having a volume level determined based on the volume level information acquired by the volume level information acquisition unit. It is a thing.

  The “first audio signal readjustment unit” (1908) is a unit included in the audio signal readjustment unit (1905) of the present embodiment, and the adjusted audio signal adjusted by the audio signal adjustment unit is output to the output terminal. A readjusted audio signal determined based on the volume level information is readjusted. The volume of music or the like that is actually output is greatly affected by the type and performance of the output device. For example, as described above, the output volume greatly differs between an output device having an audio signal amplification function and an output device having no function. Therefore, the first audio signal readjustment unit adjusts the adjusted audio signal adjusted by the audio signal adjustment unit for each output device. When an output device having an amplification function is connected to the output terminal, the adjusted audio signal adjusted to 15V by the fixed level information is input to the audio signal adjustment unit, and the output terminal volume level information is reduced by 6 dB. If there is, the audio signal readjustment unit readjusts the adjusted audio signal to 7.5V. Thereby, it is possible to prevent the sound volume from becoming excessively high even when amplified and output by the output device.

  FIG. 21A is a schematic diagram illustrating an example of the configuration of the first audio signal readjustment unit. As shown in this figure, the first audio signal readjustment means (2101) is constituted by an “amplifier” (2102). The amplifier acquires the output terminal volume level information (2103), and amplifies the volume level of the adjusted audio signal based on the acquired volume level information.

  The “output terminal” (1906) is configured to be connected to an output device for outputting a sound signal input from an external input device as sound. The output device may be any device that can receive an audio signal, and examples thereof include an external input device such as a built-in speaker of the AV apparatus, an external speaker, or headphones. Output may be performed after D / A conversion depending on the type of output device. The connection with the output device may be wired or wireless. For example, in the case of wired communication, an audio cable or an optical cable suitable for the output device can be used, and in the case of wireless communication, radio waves, infrared rays, optical communication, or the like can be used. Also, a USB connection may be used.

<Processing Flow of Embodiment 5-1>
FIG. 22 shows an example of the processing flow of the embodiment 5-1. First, an audio signal input to the input terminal is acquired (S2201). Next, fixed level information that is information for determining the volume level is acquired (S2202), and the audio signal input to the input terminal is adjusted based on the fixed level information without depending on the volume level of the audio signal. It is adjusted to a finished audio signal (S2203). Subsequently, output terminal volume level information is acquired (S2204), and the adjusted audio signal is readjusted to a readjusted audio signal determined based on the output terminal volume level information (S2205).

  Specifically, the input audio signal is converted into an adjusted audio signal as described in the first embodiment. At the same time, output terminal volume level information for determining the volume level for each output terminal is acquired from the storage area. The output terminal volume level information is automatically acquired when an audio signal is input as a default value or information previously set by the user and stored in the storage area. Next, the volume level of the adjusted audio signal is readjusted to the readjusted audio signal according to the acquired output terminal volume level information. As the readjusted audio signal, audio signals for all the output terminals may be created, but it is more efficient to create only the audio signal of the output terminal that actually outputs. When creating only an audio signal for a specific output terminal, a process may be added in which the user specifies an output terminal for outputting the readjusted audio signal, and is an output device connected to the output terminal? May be detected automatically to generate an audio signal for the connected output terminal.

<Configuration of Embodiment 5-2>
FIG. 23 shows an example of functional blocks in the present embodiment. In the present embodiment, instead of adjusting the volume level of the embodiment 5-1, the volume balance and the like are adjusted. The “AV device” (2300) of the present embodiment is based on the embodiment 4-2 and includes an “input terminal” (2301), a “fixed balance information holding unit” (2302), and an “audio signal balance adjusting unit”. ”(2303),“ volume balance etc. information acquisition unit ”(2304),“ audio signal balance etc. readjustment unit ”(2305), and“ output terminal ”(2306), and further information on volume balance etc. The acquisition unit (2304) has “output terminal volume balance etc. information acquisition means” (2307), and the audio signal balance etc. readjustment unit (2305) has “first audio signal balance etc. readjustment means” (2308). It is characterized by having.

  The “volume balance etc. information acquisition unit” (2304) is configured to acquire information such as volume balance. Acquisition of information such as volume balance may be acquired from a storage area in advance as a default value, or may be acquired by a user using an input means such as a remote controller.

  The “output terminal volume balance etc. information acquisition means” (2307) is a means of the volume balance etc. information acquisition section (2304) of this embodiment, and is configured to acquire information such as output terminal volume balance. “Output terminal volume balance information” is information for determining the volume balance for each output terminal. For example, when the output device supports 2.1ch or 5.1ch audio signals, information such as a volume balance suitable for the output device is acquired. Information such as a cutoff frequency value to be output to a speaker dedicated to the low frequency range component may be held. The output terminal volume balance information acquisition unit acquires information for determining one volume balance or the like for one output terminal.

  FIG. 24 is an example of a list in which information such as output terminal volume balance is described in XML format. As shown in this figure, each output terminal has data on the degree of enhancement of each frequency band and the degree of enhancement of each speaker. For example, the output terminal 1 has information such as volume balance that adjusts the adjusted sound signal such as volume balance to low sound +2 dB, medium sound ± 0 dB, high sound ± 0 dB, right speaker ± 0 dB, and left speaker +1 dB.

  The “sound signal balance re-adjustment unit” (2305) re-adjusts the volume balance and other adjusted audio signals adjusted by the audio signal balance and other adjustment unit based on the information on the volume balance and the like. It is configured to readjust to the audio signal. The “adjusted audio signal such as volume balance” is based on the volume balance information acquired by the acquisition unit such as the volume balance adjusted by the audio signal balance adjustment unit. It is adjusted to the audio signal such as the volume balance determined by the above. Audio signals that have been readjusted, such as volume balance, are adjusted by volume balance determined based on information such as output terminal volume balance, and others are adjusted by volume balance determined based on information such as input terminal volume balance. is there. Details of each content will be described later.

  "First audio signal balance readjustment means" (2308) is a means of the audio signal balance readjustment section (2305) of the present embodiment, such as volume balance adjusted by the audio signal balance adjustment section. The adjusted audio signal is readjusted to a readjusted audio signal such as a volume balance determined based on the output terminal volume balance information. The volume balance of the music that is actually output is greatly affected by the type and performance of the output device. For example, in many cases where audio or the like is viewed through headphones, the left and right stereo outputs are used. However, it is also conceivable to view audio and the like with a 5.1 channel speaker system. The first audio signal readjustment unit adjusts the volume balance and the like in accordance with such an output device.

  FIG. 21B is a schematic diagram illustrating an example of the configuration of the readjustment unit such as the first audio signal balance. As shown in this figure, the first audio signal balance readjustment means (2104) is constituted by an “amplifier” (2105). The amplifier acquires the information (2106) such as the output terminal volume balance and re-adjusts the volume balance of the adjusted audio signal such as the volume balance based on the acquired volume balance information.

<Processing Flow of Embodiment 5-2>
FIG. 25 shows an example of the processing flow of the embodiment 5-2. First, an audio signal input to the input terminal is acquired (S2501). Next, information such as fixed balance, which is information for determining volume balance, is acquired (S2502), and the audio signal input to the input terminal is converted to the fixed balance information without depending on the volume balance of the audio signal. Adjustment is made to an adjusted sound signal such as a volume balance determined based on the sound (S2503). Subsequently, information such as output terminal volume balance is acquired (S2504), and the adjusted audio signal such as volume balance is readjusted to a readjusted audio signal such as volume balance determined based on the output terminal volume balance information (S2504). S2505).

<Effect of Embodiment 5>
According to the AV apparatus of this embodiment, it is possible to adjust and output an audio signal having a constant volume level / volume balance that is optimal for each output device, regardless of the volume level / volume balance of the external audio apparatus. .

<< Embodiment 6 >>
<Overview of Embodiment 6>
The audio signal amplification processing may be performed by the external input device or output device described in the fifth embodiment or may be performed by the AV apparatus. Therefore, a difference occurs in the volume level / volume balance output by the combination of the external input device and the AV apparatus. According to the AV apparatus of this embodiment, it is possible to adjust and output an audio signal such as an appropriate volume level / volume balance for each input terminal to which an external input device is connected.

  Embodiment 6-1 describes an AV apparatus capable of performing adjustment relating to volume level, and Embodiment 6-2 describes an AV apparatus capable of performing adjustment relating to volume balance and the like.

<Configuration of Embodiment 6-1>
FIG. 26 shows an example of functional blocks in the present embodiment. The “AV device” (2600) of the present embodiment is based on the embodiment 1-1, and includes an “input terminal” (2601), a “fixed level information holding unit” (2602), and an “audio signal adjustment unit” (2603). ), “Volume level information acquisition unit” (2604), and “audio signal readjustment unit” (2605), and the volume level information acquisition unit (2604) further includes “input terminal volume level information acquisition means” ( 2607), and the audio signal readjustment unit (2605) has “second audio signal readjustment means” (2608).

  The “input terminal volume level information acquisition unit” (2607) is a unit included in the volume level information acquisition unit (2604) of the present embodiment, and is configured to acquire the input terminal volume level information. “Input terminal volume level information” is information that determines the volume level for each input terminal. “Each input terminal” means every external input device indirectly connected to the input terminal. The input terminal volume level information is held in the same data format as the output terminal volume level information shown in FIG. The input terminal volume level information acquisition unit acquires information for determining one volume level for one input terminal. For example, information is acquired that is 6 dB larger when input from an input terminal to which mobile audio is connected and 6 dB smaller when input from an input terminal to which a DVD player is connected.

  The “second audio signal readjustment means” (2608) is a means included in the audio signal readjustment unit (2605) of the present embodiment, and the adjusted audio signal adjusted by the audio signal adjustment unit (2603) A readjusted audio signal determined based on the input terminal volume level information is readjusted. The volume of music or the like that is actually input is greatly affected by the type and performance of the external input device. For example, the output volume differs greatly between an external input device having an audio signal amplification function and an external input device that does not. For this reason, the second audio signal readjustment unit adjusts the adjusted audio signal adjusted by the audio signal adjustment unit for each input device. When an external input device having an amplification function is connected to the input terminal, information that the adjusted audio signal adjusted to 15 V by the fixed level information is input to the audio signal adjustment unit, and the input terminal volume level information is reduced by 6 dB If so, the audio signal readjustment unit readjusts the adjusted audio signal to 7.5V. Thereby, it is possible to prevent the sound volume from becoming excessively high even when amplified and output by the output device.

<Processing Flow of Embodiment 6-1>
FIG. 27 shows an example of the processing flow of the embodiment 6-1. First, an audio signal input to the input terminal is acquired (S2701). Next, fixed level information which is information for determining the volume level is acquired (S2702), and the audio signal input to the input terminal is adjusted based on the fixed level information without depending on the volume level of the audio signal. It is adjusted to a finished audio signal (S2703). Subsequently, input terminal volume level information is acquired (S2704), and the adjusted audio signal is readjusted to a readjusted audio signal determined based on the output terminal volume level information (S2705).

  Specifically, the input audio signal is converted into an adjusted audio signal as described in the fourth embodiment. At the same time, input terminal volume level information for determining the volume level for each input terminal is acquired from the storage area. The input terminal volume level information is automatically acquired when an audio signal is input as a default value or information previously set by the user and stored in the storage area. Next, the volume level of the adjusted audio signal is readjusted to the readjusted audio signal according to the acquired input terminal volume level information.

<Configuration of Embodiment 6-2>
FIG. 28 shows an example of functional blocks in the present embodiment. In this embodiment, instead of adjusting the volume level in the embodiment 6-1, the volume balance and the like are adjusted. The “AV device” (2800) of the present embodiment is based on the embodiment 4-2 and includes an “input terminal” (2801), a “fixed balance etc. information holding unit” (2802), and an “audio signal balance etc. adjustment unit”. ”(2803),“ Volume balance and other information acquisition unit ”(2804), and“ Audio signal balance and other readjustment unit ”(2805), and further, the volume balance and other information acquisition unit (2804) includes an“ input terminal ”. The sound signal balance etc. information acquisition means ”(2807) and the audio signal balance etc. readjustment unit (2805) have“ second audio signal balance readjustment means ”(2808).

  The “input terminal volume balance information acquisition unit” (2807) is a unit included in the volume balance information acquisition unit (2804) of the present embodiment, and is configured to acquire the input terminal volume balance information. The “input terminal volume balance etc. information” is information that determines the volume balance etc. for each input terminal. If the output device supports 2.1ch or 5.1ch audio signals, information such as volume balance of each frequency band suitable for the input device is acquired. The input terminal volume balance information is held in the same data format as the output terminal volume balance information shown in FIG. The input terminal volume balance information acquisition unit acquires information for determining one volume balance or the like for one input terminal.

  The “second audio signal balance readjustment means” (2808) is a means included in the audio signal balance readjustment unit (2805) of the present embodiment, and the volume balance adjusted by the audio signal balance adjustment unit, etc. The adjusted audio signal is readjusted to a readjusted audio signal such as a volume balance determined based on the information such as the input terminal volume balance. The volume balance of music that is actually input is greatly affected by the type and performance of the output device. The second audio signal balance readjustment unit adjusts the volume balance and the like according to the external input device.

<Processing Flow of Embodiment 6-2>
FIG. 29 shows an example of the processing flow of the embodiment 6-2. First, an audio signal input to the input terminal is acquired (S2901). Next, information such as fixed balance, which is information for determining volume balance, is acquired (S2902), and the audio signal input to the input terminal is converted into the information such as fixed balance without depending on the volume balance of the audio signal. Adjustment is made to an adjusted sound signal such as a volume balance determined based on the sound (S2903). Subsequently, information such as input terminal volume balance is acquired (S2904), and the adjusted audio signal such as volume balance is readjusted to a readjusted audio signal such as volume balance determined based on the information such as input terminal volume balance ( S2905).

<Effect of Embodiment 6>
According to the AV apparatus of the present embodiment, it is possible to acquire appropriate volume level / volume balance information for each input terminal. As a result, it is possible to adjust and output an audio signal such as an optimal constant volume level / volume balance for each external input device connected to the input terminal.

<< Embodiment 7 >>
<Outline of Embodiment 7>
The AV apparatus holding a plurality of volume adjustment functions according to the present embodiment can generate volume level information using an optimal volume adjustment function, and an audio signal having an appropriate volume level for each output terminal or input terminal. It is characterized by being adjusted to output.

  In the embodiment 7-1, an AV apparatus capable of adjusting the volume level will be described, and in the embodiment 7-2, an AV apparatus capable of adjusting the volume balance and the like will be described.

<Configuration of Embodiment 7-1>
FIG. 30 shows an example of functional blocks in the present embodiment. The “AV device” (3000) shown in this figure is based on the embodiment 5-1, and “input terminal” (3001), “fixed level information holding unit” (1302), and “audio signal adjustment unit” (3003). ), A “volume level information acquisition unit” (3004), an “audio signal readjustment unit” (3005), and an “output terminal” (3006), and the volume level information acquisition unit (3004) Output terminal volume level information acquisition means ”(3007), and the audio signal readjustment unit (3005) has“ first audio signal readjustment means ”(3008). Further, a “volume adjustment function holding unit” (3009), a “volume adjustment function acquisition unit” (3010), and a “volume level information generation unit” (3011) are further provided. The AV apparatus shown in FIG. 30 is based on the embodiment 5-1, but may be based on the embodiment 6-1.

  The “volume adjustment function holding unit” (3009) is configured to hold a plurality of types of volume adjustment functions. The “volume adjustment function” is a function for adjusting the volume level, and is a relationship that determines the degree of change in the volume level. FIG. 31A shows an example of the volume adjustment function. The case of a dial-type volume level adjustment knob as shown in FIG. FIG. 31A is a graph of a volume adjustment function showing the relationship with the volume level according to the rotation angle of the knob. As shown in this figure, the volume adjustment function may have a proportional relationship such as “a”, or may have a non-proportional relationship such as “b”, “c”, and “d” having different volume level changes. The volume adjustment function of d is a function that can finely set the volume when the volume level is low, and the volume increase with respect to the rotation angle of the knob increases as the volume increases. In addition, although not shown in the figure, in the case of a proportional relationship, a function in which the volume increase amount is changed by changing the inclination may be used.

  The “volume adjustment function acquisition unit” (3010) is configured to acquire one of the volume adjustment functions for each output terminal or input terminal. One of the optimum volume adjustment functions for each output terminal or input terminal is selected and acquired from the plurality of volume adjustment functions held by the volume adjustment function holding unit. In the case of FIG. 31A, the output terminal 1 is selected using the volume adjustment function a, and the output terminal 2 is selected using the volume adjustment function c. As an acquisition method, a method of displaying a plurality of volume adjustment functions on the display unit and selecting one of them by an input means such as a remote controller or a mouse is easy to understand. For example, an expression or graph of the volume adjustment function can be displayed, or can be displayed as very fine / fine / standard.

  The “volume level information generation unit” (3011) is configured to generate volume level information using the volume adjustment function acquired by the volume adjustment function acquisition unit. As a generation method, it can be generated, for example, by using a knob and turning the knob, or by displaying a volume level meter on the display unit and allowing the user to set it with a remote controller or the like. In FIG. 31A, when the volume adjustment function a is selected and the knob is rotated to r, volume level information for determining the volume level of s is generated. The volume level information generated by the volume level information generation unit is acquired by the volume level information acquisition unit and used for adjustment of the readjusted audio signal by the audio signal readjustment unit.

<Processing Flow of Embodiment 7-1>
FIG. 32 shows an example of the processing flow of the embodiment 7-1. First, an audio signal input to the input terminal is acquired (audio signal acquisition step S3201). Next, fixed level information that is information for determining the volume level is acquired (fixed level acquisition step S3202), and the audio signal input to the input terminal is converted into the fixed level information without depending on the volume level of the audio signal. It adjusts to the adjusted audio | voice signal determined based on (audio | voice signal adjustment step S3203). Subsequently, one volume adjustment function is acquired for each output terminal or input terminal from a plurality of types of volume adjustment functions (volume adjustment function acquisition step S3204). Next, volume level information is generated using the volume adjustment function acquired in the volume adjustment function acquisition step (volume level information generation step S3205). Finally, the adjusted audio signal adjusted in the audio signal adjustment step is readjusted to a readjusted audio signal determined based on the volume level information generated in the volume level information generation step (audio signal readjustment). Step S3206).

  Specifically, a plurality of types of volume adjustment functions are recorded in the recording area in advance. Volume level information is created by selecting one volume adjustment function for each output terminal or input terminal. The creation of the volume level information may be performed automatically when an audio signal is input, as default values or information preset by the user and stored in the storage area. The setting may be performed every time when is detected. Using the generated volume level information, the processing described in the first and second embodiments is performed, and an audio signal is output.

<Configuration of Embodiment 7-2>
FIG. 33 shows an example of functional blocks in the present embodiment. In this embodiment, instead of adjusting the volume level in the embodiment 7-1, the volume balance and the like are adjusted. The “AV device” (3300) shown in this figure is based on the embodiment 5-2 and includes an “input terminal” (3301), a “fixed balance information holding unit” (3302), and an “audio signal balance adjusting unit”. ”(3303),“ Volume balance and other information acquisition unit ”(3304),“ Audio signal balance and other readjustment unit ”(3305), and“ Output terminal ”(3306). The acquisition unit (3304) has “output terminal volume balance etc. information acquisition means” (3307), and the audio signal balance etc. readjustment unit (3305) provides “first audio signal balance etc. readjustment means” (3308). Have. Further, it has a “volume balance adjustment function holding unit” (3309), a “volume balance adjustment function acquisition unit” (3310), and a “volume balance etc. information generation unit” (3311). The AV apparatus in FIG. 33 is based on the embodiment 5-2, but may be based on the embodiment 6-2.

  The “volume balance adjustment function holding unit” (3309) is configured to hold a plurality of types of volume balance adjustment functions. The “volume balance adjustment function” is a function for adjusting the volume balance and the like, and is a relationship that determines the degree of change in the volume balance and the like. FIG. 31B shows an example of an adjustment function such as volume balance. A description will be given of the case of a dial type volume control or the like as shown in FIG. One adjustment knob may be provided for each frequency band such as bass and treble and each speaker such as the right speaker and the left speaker, or the volume balance may be adjusted by one knob. As shown in this figure, the volume balance adjustment function may be in a proportional relationship such as a, or may be in a non-proportional relationship such as b and c having different volume level changes.

  The “volume balance adjustment function acquisition unit” (3310) is configured to acquire one of the volume balance adjustment functions for each output terminal or input terminal. One of the optimal volume balance adjustment functions for each output terminal or input terminal is selected and acquired from the plurality of volume balance adjustment functions held by the volume balance adjustment function holding unit. In the case of FIG. 31 (B), the output terminal 1 is selected to use a volume balance adjustment function such as a, and the output terminal 2 is selected to use c volume balance adjustment function. As an acquisition method, it is easy to understand a method of acquiring by displaying a plurality of adjustment functions such as volume balance on the display unit and selecting one of them by an input means such as a remote controller or a mouse. For example, an expression or graph of an adjustment function such as a volume balance can be displayed, or “very fine / fine / standard” can be displayed.

  The “volume balance information generation unit” (3311) is configured to generate volume balance information using the volume balance adjustment function acquired by the volume balance adjustment function acquisition unit. As a generation method, for example, it can be generated by using a dial and turning the dial, or by displaying a meter such as a volume balance on the display unit and setting the user with a remote controller or the like. In FIG. 31B, when the adjustment function for volume balance such as a is selected and the knob is rotated to r, information such as volume balance for determining the volume balance for t is generated. The volume balance information generated by the volume balance information generation unit is acquired by the volume balance information acquisition unit and is used to adjust the readjusted audio signal such as the volume balance by the audio signal balance readjustment unit. The

<Processing Flow of Embodiment 7-2>
FIG. 34 shows an example of the processing flow of the embodiment 7-2. First, an audio signal input to the input terminal is acquired (audio signal acquisition step S3401). Next, information such as fixed balance, which is information for determining volume balance, is acquired (fixed balance acquisition step S3402), and the audio signal input to the input terminal is not dependent on the volume balance of the audio signal. The balance is adjusted to an adjusted audio signal determined based on information such as fixed balance (audio signal balance adjustment step S3403). Subsequently, one volume balance adjustment function is acquired for each output terminal or input terminal from a plurality of types of volume balance adjustment functions (volume balance adjustment function acquisition step S3404). Next, information such as volume balance is generated using the volume adjustment function acquired in the volume balance adjustment function acquisition step (volume balance information generation step S3405). Finally, the volume balance adjusted audio signal adjusted in the audio signal adjustment step is changed to a volume balance readjusted audio signal determined based on the volume balance information generated in the volume balance information generation step. Readjustment is performed (audio signal readjustment step S3406).

<Effect of Embodiment 7>
According to the AV apparatus having a plurality of volume adjustment functions / volume balance adjustment functions according to the present embodiment, volume level information / volume balance information is generated using an optimal volume adjustment function / volume balance adjustment function. be able to. Thereby, the audio signal input to the input terminal can be adjusted to an audio signal having an appropriate volume level / volume balance for each output terminal or input terminal and output.

<< Embodiment 8 >>
<Outline of Embodiment 8>
In the AV apparatus of the embodiments described so far, even when the user changes the setting of the preferred volume level / volume balance or the like by the remote controller or the like when the readjusted audio signal is output, the change is stored. First, the next readjusted audio signal is output when the external input device is connected. The AV apparatus according to the present embodiment has a volume level information holding unit or a volume balance information holding unit, and outputs according to the volume level / volume balance changed by the user when the external input device is connected next time.

  Embodiment 8-1 describes an AV apparatus capable of performing adjustment relating to the volume level, and Embodiment 8-2 describes an AV apparatus capable of performing adjustment relating to volume balance and the like.

<Configuration of Embodiment 8-1>
FIG. 35 shows an example of functional blocks in the present embodiment. The “AV device” (3500) of the present embodiment is based on the embodiment 7-1 and includes an “input terminal” (3501), a “fixed level information holding unit” (3502), and an “audio signal adjustment unit” (3503). ”,“ Volume level information acquisition unit ”(3504),“ audio signal readjustment unit ”(3505),“ output terminal ”(3506),“ volume adjustment function holding unit ”(3509),“ volume ” “Adjustment function acquisition unit” (3510) and “Volume level information generation unit” (3511), and further, the volume level information acquisition unit (3504) has “output terminal volume level information acquisition means” (3507). The audio signal readjustment unit (3505) includes a “first audio signal readjustment unit” (3508). Further, it has a “volume level information holding unit” (3512), and the volume level information acquisition unit (3504) has “default acquisition means” (3513).

  The “volume level information holding unit” (3512) is configured to hold the volume level information of the readjusted audio signal at the end of the input of the audio signal by external connection. “End of audio signal input by external connection” refers to when the AV device is disconnected from the external audio device, or when the external audio device or the AV device is turned off. Actually, the volume level when the volume level of the audio signal output by the readjusted audio signal is changed by the user is held in the storage area, and the input level of the audio signal by the external connection is terminated. When it is detected, it is recorded in the volume level information holding unit. The volume level information held as the default value is not limited to one, and may be two or more.

  The “default acquisition unit” (3513) is a unit included in the volume level information acquisition unit (3504) of the present embodiment. When acquiring the first volume level information when the input of the audio signal is resumed, the volume level information storage unit Is configured to acquire volume level information held in the. In order to adjust the readjusted audio signal based on the volume level information held in the volume level information holding unit instead of the preset volume level information, the volume level information acquisition unit has a default acquisition unit. ing.

<Processing Flow of Embodiment 8-1>
FIG. 36 shows an example of the processing flow of the embodiment 8-1. First, an audio signal input to the input terminal is acquired (audio signal acquisition step S3601 YES). Next, volume level information for each output terminal or input terminal is acquired (volume level information acquisition step S3602). Subsequently, when the input end of the audio signal by the external connection is detected (YES in the input end detection step S3603), the volume level information at the time of the input end detection is held (volume level information holding step S3604). When the processing flow is not ended (S3605) and the input of the audio signal is resumed (YES in S3601), the volume level information held in the volume level information holding step is acquired when acquiring the volume level information. (Default acquisition step S3602).

  Specifically, when the volume level information is acquired or generated in the AV apparatus that outputs the audio signal by the processing described in the fourth to sixth embodiments, the information is stored in the storage area. Further, when the volume level information is subsequently changed and adjusted to a new readjusted audio signal, the latest volume level information is stored instead of the previously stored information. Next, the input end of the audio signal is detected. For example, when the power of the AV apparatus or the external audio apparatus is turned off, the power OFF signal is detected as the end of the audio signal input. Further, when the reproduction of music or the like is finished and no audio signal is input for a predetermined time, the end of the audio signal input may be detected by detecting the no-signal time. When the input end of the audio signal is detected, the volume level information temporarily recorded in the storage area is determined and recorded in the volume level information holding unit. Next, when acquiring the volume level information, the volume level information held in the volume level information holding unit is acquired and used as a readjusted audio signal.

<Configuration of Embodiment 8-2>
FIG. 37 shows an example of functional blocks in the present embodiment. In this embodiment, instead of adjusting the volume level in the embodiment 8-1, the volume balance and the like are adjusted. The “AV device” (3700) of this embodiment is based on the embodiment 7-2, and includes an “input terminal” (3701), a “fixed balance etc. information holding unit” (3702), and an “audio signal balance etc. adjustment unit”. (3703), “volume balance etc. information acquisition unit” (3704), “audio signal balance etc. readjustment unit” (3705), “output terminal” (3706), “volume balance etc. adjustment function holding unit” ”(3709),“ Volume balance etc. adjustment function acquisition unit ”(3710), and“ Volume balance etc. information generation unit ”(3711), and further the volume balance etc. information acquisition unit (3704) "Information acquisition means" (3707), and the audio signal readjustment unit (3705) has "first audio signal readjustment means" (3708). Further, it has a “volume balance information holding unit” (3712), and the volume level information acquisition unit (3704) has “volume balance default acquisition means” (3713).

  The “volume balance etc. information holding unit” (3712) is configured to hold information such as the volume balance of the readjusted audio signal such as the volume balance at the end of the input of the audio signal by external connection. “End of audio signal input by external connection” refers to when the AV device is disconnected from the external audio device, or when the external audio device or the AV device is turned off. Actually, the volume balance of the audio signal output by the readjusted audio signal such as the volume balance is retained in the storage area when the volume balance of the audio signal is changed by the user, and the audio signal by external connection Is recorded in the information holding unit such as a volume balance when the input end is detected. Information such as a volume balance held as a default value is not limited to one, and may be two or more.

  The “volume balance default acquisition means” (3713) is a means included in the volume balance etc. information acquisition unit (3704) of this embodiment, and is used when acquiring the first volume balance information when the input of the audio signal is resumed. The information such as the volume balance held in the information holding unit such as the volume balance is acquired. In order to adjust the readjusted audio signal such as the volume balance in accordance with the volume balance information held in the volume balance information holding section instead of the preset volume balance information etc., the volume balance etc. information acquisition section Has default acquisition means.

<Processing Flow of Embodiment 8-2>
FIG. 38 shows an example of the processing flow of the embodiment 8-2. First, an audio signal input to the input terminal is acquired (audio signal acquisition step S3801 YES). Next, information such as volume balance for each output terminal or input terminal is acquired (volume balance information acquisition step S3802). Subsequently, when the input end of the audio signal by the external connection is detected (YES in the input end detection step S3803), the information such as the volume balance at the time of the input end detection is held (volume balance etc. information holding step S3804). If the processing flow is not terminated (S3805) and the input of the audio signal is resumed (YES in S3801), the volume balance information held in the volume balance etc. information holding step is acquired when acquiring the volume balance etc. information. To do. (Volume balance etc. default acquisition step S3802).

<Effect of Embodiment 8>
According to the AV apparatus of the present embodiment, it is possible to hold information such as the volume level / volume balance used previously. Thereby, the user's trouble can be saved without setting the volume level / volume balance and the like each time.

<< Embodiment 9 >>
<Outline of Embodiment 9>
The AV apparatus according to the present embodiment detects the connection of the external apparatus by detecting the insertion of the plug into the input terminal, and converts the audio signal input to the input terminal into an audio signal such as an appropriate volume level / volume balance. It is characterized by adjusting.

<Configuration of Embodiment 9-1>
FIG. 39 shows an example of functional blocks in the present embodiment. The “AV device” (3900) of the present embodiment is based on the fourth embodiment and includes an “input terminal” (3901), a “fixed level information holding unit” (3902), and an “audio signal adjustment unit” (3903). And a “determination unit” (3904).

<Configuration of Embodiment 9-2>
FIG. 40 shows an example of functional blocks in the present embodiment. In this embodiment, instead of adjusting the volume level in the embodiment 9-1, the volume balance and the like are adjusted. The “AV device” (4000) of the present embodiment is based on the fourth embodiment and includes an “input terminal” (4001), a “fixed balance information holding unit” (4002), and an “audio signal balance adjusting unit” ( 4003) and a “determination unit” (4004).

  The ninth embodiment is based on the fourth embodiment, but may be based on any of the fifth to eighth embodiments. Further, it may have a configuration such as “AV signal input unit”, “audio signal transfer unit”, “switch”, “switch control unit”, “lock signal control unit” described in the first to third embodiments. .

  The “determination unit” (3904, 4004) of the present embodiment performs the same function as the detection unit described in the first embodiment, and detects whether there is an external connection by detecting plug insertion / extraction to / from the input terminal. It is configured. Specifically, first, predetermined signals are collected periodically. When the plug is inserted, the terminal is in a LOW state that physically indicates a connected state, and when the plug is removed, the terminal is in a HIGH state that indicates a non-connected state. As a result, the collected signal changes, and plug insertion / extraction can be detected. The determination unit can detect whether or not there is an external connection by detecting the insertion of the plug by the arrival of a signal not only when the plug is inserted or removed but also when the AV apparatus is turned on when the plug is inserted. It may be.

  When the determination unit (3904) determines that there is an external connection, the “audio signal adjustment unit” (3903) of the present embodiment converts the audio signal input to the input terminal to the volume level of the audio signal. It is configured to adjust to an adjusted audio signal that is determined based on the fixed level information without depending on it. Also, when the “audio signal balance adjusting unit” (4003) determines that there is an external connection in the determining unit (4004), the audio signal balance adjusting unit is connected to the audio signal input to the input terminal. Is adjusted to an adjusted audio signal such as a volume balance determined based on the information such as the fixed balance without depending on the volume balance of the audio signal. As a result, the user can change the external input sound to an output sound suitable for the AV device, such as a volume level / volume balance, by simply inserting a plug without changing the input mode setting and the like, and save it in the mobile audio. It is possible to listen to powerful music through the speakers of the AV device.

<Processing Flow of Embodiment 9-1>
FIG. 41 shows an example of the processing flow of the embodiment 6-1. First, it is determined whether or not there is an external connection to the input terminal (determination step S4101). Next, an audio signal input to the input terminal is acquired (audio signal acquisition step S4102). Subsequently, when it is determined that there is an external connection in the determination step, fixed level information that is information for determining a sound volume level is acquired (fixed level information acquisition step S4103). Finally, the audio signal input to the input terminal is adjusted to an adjusted audio signal determined based on the fixed level information acquired in the fixed level acquisition step without depending on the volume level of the audio signal (audio signal). Adjustment step S4104).

<Processing flow of embodiment 9-2>
FIG. 42 shows an example of the processing flow of the embodiment 9-2. First, it is determined whether or not there is an external connection to the input terminal (determination step S4201). Next, an audio signal input to the input terminal is acquired (audio signal acquisition step S4202). Subsequently, information such as fixed balance, which is information for determining volume balance, is acquired (fixed balance information acquisition step S4203). Finally, the audio signal input to the input terminal is not dependent on the volume balance of the audio signal, but is adjusted based on the fixed balance etc. information acquired in the fixed balance etc. acquisition step. (Sound signal volume balance adjustment step S4204).

<Effect of Embodiment 9>
According to the AV apparatus of the present embodiment, it is possible to determine whether there is an external apparatus by detecting insertion / extraction of the plug to / from the input terminal. As a result, the user can adjust the audio signal to an appropriate volume level / volume balance, etc., by simply inserting the plug without changing the setting of the input mode, etc., and the user's trouble can be saved.

Conceptual diagram for explaining the first embodiment Functional block diagram for explaining the first embodiment Schematic diagram for explaining the first embodiment The figure for demonstrating the flow of a process of Embodiment 1. FIG. Functional block diagram for explaining the second embodiment Diagram showing cable connection example for monitor output The conceptual diagram which shows the relationship of the terminal of Embodiment 2. The figure for demonstrating the flow of a process of Embodiment 2. FIG. Functional block diagram for explaining the third embodiment The figure for demonstrating the flow of a process of Embodiment 3. Functional block diagram for explaining the embodiment 4-1 The figure for demonstrating an audio | voice signal adjustment part The figure for demonstrating the flow of a process of an audio | voice signal adjustment part The figure for demonstrating the flow of a process of Embodiment 4-1. Functional block diagram for explaining the embodiment 4-2 The figure for demonstrating adjustment parts, such as an audio signal balance The figure for demonstrating the flow of a process of audio signal balance etc. adjustment parts. The figure for demonstrating the flow of a process of Embodiment 4-2. Functional block diagram for explaining the embodiment 5-1. Diagram for explaining output terminal volume level information The figure for demonstrating 1st audio | voice signal readjustment means and 1st audio | voice signal balance etc. readjustment means The figure for demonstrating the flow of a process of Embodiment 5-1. Functional block diagram for explaining the embodiment 5-2 Diagram for explaining information such as output terminal volume balance The figure for demonstrating the flow of a process of Embodiment 5-2. Functional block diagram for explaining the embodiment 6-1 The figure for demonstrating the flow of a process of Embodiment 6-1. Functional block diagram for explaining the embodiment 6-2 The figure for demonstrating the flow of a process of Embodiment 6-2. Functional block diagram for explaining the embodiment 7-1 The figure for demonstrating adjustment functions, such as a volume adjustment function and a volume balance The figure for demonstrating the flow of a process of Embodiment 7-1. Functional block diagram for explaining the embodiment 7-2 The figure for demonstrating the flow of a process of Embodiment 7-2. Functional block diagram for explaining the embodiment 8-1 The figure for demonstrating the flow of a process of Embodiment 8-1. Functional block diagram for explaining the embodiment 8-2 The figure for demonstrating the flow of a process of Embodiment 8-2. Functional block diagram for explaining the embodiment 9-1 Functional block diagram for explaining the embodiment 9-2 The figure for demonstrating the flow of a process of Embodiment 9-1. The figure for demonstrating the flow of a process of Embodiment 9-2.

Explanation of symbols

0200, 1100, 1500 AV apparatus 0201, 1101, 1501 Input terminal 0202 Detection unit 0203 AV signal input unit 0204 Audio signal transfer unit 0205 Switch 0206 Switch control unit 1102 Fixed level information holding unit 1103 Audio signal adjustment unit 1502 Holding information such as fixed balance 1503 Audio signal balance adjustment section

Claims (16)

An input terminal for inputting external audio signals;
A fixed level information holding unit that holds, as a default value, fixed level information that is information that determines a volume level that is always constant regardless of the setting of an external device connected to the input terminal ;
An audio signal adjusting unit that adjusts an audio signal input to the input terminal to an adjusted audio signal determined based on the fixed level information without depending on the volume level of the audio signal;
An AV device comprising:
Multiple types of output terminals,
A volume level information acquisition unit that acquires volume level information that is information that determines a volume level that is set in advance by the user and stored in the storage area;
An audio signal readjustment unit that readjusts the adjusted audio signal adjusted by the audio signal adjustment unit to a readjusted audio signal determined based on the volume level information;
The volume level information acquisition unit includes output terminal volume level information acquisition means for acquiring output terminal volume level information, which is information for determining a volume level for each output terminal,
The audio signal readjustment unit is a first audio signal readjustment unit that readjusts the adjusted audio signal adjusted by the audio signal adjustment unit to a readjusted audio signal determined based on the output terminal volume level information. When,
An AV apparatus further comprising: An input terminal for inputting external audio signals;
A fixed level information holding unit that holds, as a default value, fixed level information that is information that determines a volume level that is always constant regardless of the setting of an external device connected to the input terminal ;
An audio signal adjusting unit that adjusts an audio signal input to the input terminal to an adjusted audio signal determined based on the fixed level information without depending on the volume level of the audio signal;
An AV device comprising:
One or more other input terminals other than the input terminal;
A volume level information acquisition unit that acquires volume level information that is information that determines a volume level that is set in advance by the user and stored in the storage area;
An audio signal readjustment unit that readjusts the adjusted audio signal adjusted by the audio signal adjustment unit to a readjusted audio signal determined based on the volume level information;
The volume level information acquisition unit includes input terminal volume level information acquisition means for acquiring input terminal volume level information, which is information for determining a volume level for each input terminal,
The audio signal readjustment unit re-adjusts an audio signal including the adjusted audio signal adjusted by the audio signal adjustment unit to a readjusted audio signal determined based on the input terminal volume level information. A signal readjustment means;
An AV apparatus further comprising: A volume adjustment function holding unit for holding multiple types of volume adjustment functions;
A volume adjustment function acquisition unit for acquiring one of the volume adjustment functions for each output terminal or input terminal by being selected by an input means by a user;
A volume level information generation unit that generates volume level information using the volume adjustment function acquired by the volume adjustment function acquisition unit;
The AV device according to claim 1, further comprising: A volume level information holding unit for holding volume level information of the readjusted audio signal at the end of input of the audio signal to the input terminal;
The volume level information acquisition unit includes default acquisition means for acquiring the volume level information held in the volume level information holding unit when acquiring the first volume level information when the input of the audio signal is resumed. The AV device described. It further includes a determination unit that detects whether there is an external connection by detecting insertion / removal of the plug with respect to the input terminal,
When the determination unit determines that there is an external connection, the audio signal adjustment unit determines the audio signal input to the input terminal based on the fixed level information without depending on the volume level of the audio signal. The AV apparatus according to claim 1, wherein the AV apparatus is adjusted to an adjusted audio signal determined by An input terminal for inputting external audio signals;
A fixed balance and other information holding unit that holds fixed balance and other information as a default value, which is information that determines a volume balance that is always constant regardless of the setting of an external device connected to the input terminal ;
An audio signal balance adjusting unit that adjusts an audio signal input to the input terminal to an adjusted audio signal such as a volume balance determined based on the information such as the fixed balance without depending on the volume balance of the audio signal;
An AV device comprising:
Multiple types of output terminals,
An information acquisition unit such as a volume balance that acquires information such as a volume balance, which is information that determines a volume balance that is set in advance by the user and stored in the storage area;
A sound signal balance re-adjustment unit for re-adjusting the sound signal adjusted in volume balance and the like adjusted by the sound signal balance adjustment unit to a re-adjusted sound signal such as volume balance determined based on the information such as the volume balance; Have
The volume balance etc. information acquisition unit is an output terminal volume balance etc. information acquisition means for acquiring information such as output terminal volume balance etc. which is information for determining the volume balance etc. for each output terminal,
The audio signal balance etc. readjustment unit adjusts the volume balance etc. adjusted audio signal adjusted by the audio signal balance etc. adjustment unit based on the information such as the output terminal volume balance etc. The first audio signal balance readjustment unit to readjust to
An AV apparatus further comprising: An input terminal for inputting external audio signals;
A fixed balance and other information holding unit that holds fixed balance and other information as a default value, which is information that determines a volume balance that is always constant regardless of the setting of an external device connected to the input terminal ;
An audio signal balance adjusting unit that adjusts an audio signal input to the input terminal to an adjusted audio signal such as a volume balance determined based on the information such as the fixed balance without depending on the volume balance of the audio signal;
An AV device comprising:
One or more other input terminals other than the input terminal;
An information acquisition unit such as a volume balance that acquires information such as a volume balance, which is information that determines a volume balance that is set in advance by the user and stored in the storage area;
A sound signal balance re-adjustment unit for re-adjusting the sound signal adjusted in volume balance and the like adjusted by the sound signal balance adjustment unit to a re-adjusted sound signal such as volume balance determined based on the information such as the volume balance; Have
The volume balance etc. information acquisition unit is an input terminal volume balance etc. information acquisition unit for acquiring information such as an input terminal volume balance which is information for determining the volume balance etc. for each input terminal,
The audio signal balance re-adjustment unit re-adjusts the audio signal including the adjusted audio signal such as the volume balance adjusted by the audio signal balance adjustment unit based on the input terminal volume balance information and the like. A second audio signal balance readjustment unit for readjustment to the adjusted audio signal;
An AV apparatus further comprising: A volume balance adjustment function holding unit for holding multiple types of volume balance adjustment functions;
A volume balance adjustment function acquisition unit that acquires one of the volume balance adjustment functions for each output terminal or input terminal by being selected by an input means by a user;
A volume balance etc. information generating unit for generating volume balance etc. information using the volume balance etc. adjustment function acquired by said volume balance etc. adjustment function acquisition unit;
The AV device according to claim 6 or 7, further comprising: A volume balance information holding unit for holding information such as the volume balance of the readjusted audio signal such as the volume balance at the end of input of the audio signal to the input terminal;
The volume balance etc. information holding unit obtains the volume balance etc. information held in the volume balance etc. information holding unit when acquiring the first volume balance etc. information when the input of the audio signal is resumed. The AV apparatus according to claim 8, comprising: It further includes a determination unit that detects whether there is an external connection by detecting insertion / removal of the plug with respect to the input terminal,
When the determination unit determines that there is an external connection, the audio signal balance adjustment unit adjusts the audio signal input to the input terminal to the fixed balance without depending on the volume balance of the audio signal. The AV apparatus according to claim 6, wherein the audio signal is adjusted to an adjusted audio signal such as a volume balance determined based on the information. An audio signal acquisition step for acquiring an audio signal input to the input terminal;
A fixed level information acquisition step for acquiring fixed level information, which is information stored in the storage area as a default value, and which determines a volume level that is always constant regardless of the setting of the external device connected to the input terminal ;
An audio signal for adjusting the audio signal acquired in the audio signal acquisition step to an adjusted audio signal determined based on the fixed level information acquired in the fixed level information acquisition step without depending on the volume level of the audio signal An adjustment step;
A method of operating an AV device comprising:
A volume level information acquisition step for acquiring volume level information, which is information that determines a volume level that is preset by a user and stored in a storage area;
An audio signal readjustment step for readjusting the adjusted audio signal adjusted in the audio signal adjustment step to a readjusted audio signal determined based on the volume level information;
The volume level information acquisition step includes an output terminal volume level information acquisition substep for acquiring output terminal volume level information, which is information for determining a volume level for each output terminal;
In the audio signal readjustment step, a first audio signal readjustment sub that re-adjusts the adjusted audio signal adjusted in the audio signal adjustment step to a readjusted audio signal determined based on the output terminal volume level information. Steps,
A method of operating an AV apparatus further comprising: A volume adjustment function acquisition step of acquiring one volume adjustment function for each output terminal or input terminal from a plurality of types of volume adjustment functions by the user selecting the input means; and
Volume level information generation step for generating volume level information for determining a volume level for each output terminal or input terminal using the volume adjustment function acquired in the volume adjustment function acquisition step;
An audio signal readjustment step for readjusting the adjusted audio signal adjusted in the audio signal adjustment step to a readjusted audio signal determined based on the volume level information generated in the volume level information generation step;
The operation method of the AV apparatus according to claim 11, comprising: An input end detection step of detecting the end of input of the audio signal to the input terminal;
A volume level information holding step for holding volume level information at the time of input end detection when the input end of the audio signal is detected in the input end detection step;
A default acquisition step of acquiring the volume level information held in the volume level information holding step when acquiring the first volume level information when the input of the audio signal is resumed;
The operation method of the AV apparatus according to claim 11, comprising: An audio signal acquisition step for acquiring an audio signal input to the input terminal;
A fixed balance information acquisition step for acquiring information such as a fixed balance, which is information that determines a volume balance that is held in a storage area as a default value and is always constant regardless of the setting of an external device connected to the input terminal ; ,
The audio signal acquired in the audio signal acquisition step is adjusted based on the fixed balance etc. information acquired in the fixed balance etc. information acquisition step without depending on the audio signal volume balance etc. Audio signal volume balance adjustment step to adjust to the signal,
A method of operating an AV device comprising:
A volume balance etc. information acquisition step for acquiring information such as volume balance, which is information that determines the volume balance etc. set in advance by the user and stored in the storage area;
Audio signal balance readjustment step for readjusting the volume balance adjusted audio signal adjusted in the audio signal volume balance adjustment step to the volume balance readjusted audio signal determined based on the volume balance information. And having
The volume balance etc. information acquisition step includes an output terminal volume balance etc. information acquisition substep for obtaining information such as output terminal volume balance etc., which is information for determining the volume balance etc. for each output terminal,
In the audio signal balance etc. readjustment step, the volume balance etc. adjusted audio signal adjusted in the audio signal volume balance etc. adjustment step is adjusted based on the output terminal volume balance etc. information. A readjustment substep such as a first audio signal balance to readjust the signal;
A method of operating an AV apparatus further comprising: A volume balance etc. adjustment function acquisition step for acquiring one volume balance etc. adjustment function for each output terminal or input terminal from a plurality of types of volume balance etc. adjustment functions by the input means by the user;
Volume balance etc. information generation step for generating volume balance etc. information for determining volume balance etc. for each output terminal or input terminal using the volume balance etc. adjustment function acquired in said volume balance etc. adjustment function acquisition step;
The adjusted audio signal such as the volume balance adjusted in the audio signal volume balance adjustment step is changed to the readjusted audio signal such as the volume balance determined based on the volume balance information generated in the volume balance information generation step. Readjustment step such as audio signal volume balance to readjust,
The method of operating an AV apparatus according to claim 14, comprising: An input end detection step of detecting the end of input of the audio signal to the input terminal;
A volume balance etc. information holding step for holding information such as volume balance at the time of input end detection when the input end of the audio signal is detected in the input end detection step;
When acquiring information such as the first volume balance at the time of resuming input of the audio signal, a default acquisition step such as a volume balance that acquires the volume balance information held in the volume balance information holding step;
The method of operating an AV apparatus according to claim 14, comprising:

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