JP2019113737A - Electronic apparatus, control method and control program of electronic apparatus, and acoustic system - Google Patents

Abstract

To provide an electronic apparatus capable of favorably performing two-way data communication by a simple structure and a simple operation method, a control method and a control program of the electronic apparatus, and an acoustic system including the electronic apparatus.SOLUTION: In an acoustic system in which an electronic musical instrument 100 and an information device 200 are connected via an audio cable 300 and an audio signal is transmitted from the information device 200 to the electronic musical instrument 100 in one direction, the electronic musical instrument 100 monitors reception status of the audio signal received via the audio cable 300, and produces a specific control sound corresponding to the type of an error when the error occurs, and the information device 200 receives the control sound produced from the electronic musical instrument 100, and takes a corrective action corresponding to the type of an error. As a result, substantially bidirectional data communication is realized between the electronic musical instrument 100 and the information device 200.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an electronic device, a control method and control program of the electronic device, and an acoustic system provided with the electronic device.

  In recent years, various electronic devices equipped with an input / output function of an audio signal (audio signal) such as a smartphone, a personal computer, an electronic musical instrument, an electronic dictionary, etc. have become widespread. Some of these electronic devices are connected to an external device using an audio cable (or a line cable), and ordinary audio such as music data stored in the external device is produced using a speaker on the electronic device side The one corresponding to the usage of the cable is known. In addition to such functions, for example, as described in Patent Document 1, digital data converted into an audio signal is transmitted from a portable information terminal, which is an external device, to an electronic musical instrument using a line cable. There is also known a system having a function to execute a predetermined reproduction operation on the electronic musical instrument side based on the received digital data.

JP, 2017-58621, A

  In a system as described in Patent Document 1, unidirectional communication in which an audio signal is transmitted from an external device to an electronic musical instrument via an audio cable (or line cable) is employed. Therefore, data could not be transmitted from the electronic musical instrument to the external device, and for example, it was not possible to feed back the processing status on the electronic musical instrument side or to control the function of the external device. Moreover, in order to realize data communication from such an electronic musical instrument to an external device, it is necessary to newly provide communication means for data communication to both the electronic musical instrument and the external device, for example. There is a problem in that the structure of the apparatus becomes complicated or enlarged, and the operation method becomes complicated.

  Therefore, in view of the problems described above, the present invention is provided with an electronic device capable of favorably performing bi-directional data communication with a simple structure, a control method and control program of the electronic device, and the electronic device. To provide an acoustic system.

The electronic device according to the present invention is
Setting means for setting an operation state based on a signal received from an external device via communication means in which data is transmitted in one direction;
Sound generation means for generating musical tones;
First sound generation control means for controlling the sound generation of the musical tone by the sound generation means according to the operation state set by the setting means;
The second sound generation unit is a sound that can be recognized by the external device when it is determined that the specific operation of the external device needs to be controlled, and a control sound for controlling the specific operation is generated by the sound generation unit. Pronunciation control means,
Is equipped.

  According to the present invention, bi-directional data communication can be favorably performed with a simple structure.

It is an external view which shows one Embodiment of the acoustic system provided with the electronic device which concerns on this invention. It is a block diagram showing the example of composition of the hardware of the electronic musical instrument applied to one embodiment. It is a block diagram showing the example of composition of the hardware of the information equipment applied to one embodiment. It is a flowchart which shows the main routine of the control method of the acoustic system which concerns on one Embodiment. It is a flowchart which shows the transfer error detection operation | movement of the electronic musical instrument applied to the control method of the sound system which concerns on one Embodiment. FIG. 7 is a diagram showing an example of an error determination list applied to a transfer error detection operation of the electronic musical instrument according to an embodiment. FIG. 7 is a view showing an example of a control sound setting list applied to the transfer error detection operation of the electronic musical instrument according to the embodiment. It is a flowchart which shows the transfer error handling operation | movement of the information apparatus applied to the control method of the acoustic system which concerns on one Embodiment. It is a figure which shows an example of the error handling list | wrist applied to transfer error handling operation | movement of the information apparatus which concerns on one Embodiment. It is a figure which shows the comparative example (error handling list | wrist) of the error handling method in an acoustic system. It is a block diagram which shows the modification of the hardware of the electronic musical instrument applied to one Embodiment.

  Hereinafter, an electronic device, a control method and control program of the electronic device, and an embodiment for implementing an acoustic system including the electronic device according to the present invention will be described in detail with reference to the drawings.

<Sound system>
FIG. 1 is an external view showing an embodiment of an acoustic system provided with an electronic device according to the present invention. Here, an electronic musical instrument such as an electronic keyboard instrument (electronic keyboard) provided with a specific acoustic function and an information instrument such as a smart device called a smart device or a tablet terminal are provided as an example of the electronic instrument applied to the acoustic system. The case of application will be described.

  As shown in FIG. 1, the sound system according to the present invention comprises at least an electronic musical instrument (first electronic device) 100 such as an electronic keyboard instrument and an information device (second electronic device) 200 such as a smartphone or a tablet terminal. , And both are connected via an audio cable (or line cable) 300.

  For example, as shown in FIG. 1, the electronic musical instrument 100 has a plurality of keys as performance operators on one side of the musical instrument body, a keyboard 102 for specifying a pitch, volume control, timbre selection, and the like. It has an operation panel 104 in which switches for performing function selection and the like are arranged, and a display panel 106 for displaying volume, tone, setting information, various other information, and the like. Also, the electronic musical instrument 100 can be used to generate musical tones generated by operating the keyboard 102 and the operation panel 104, musical tones based on audio signals transmitted from the information device 200, and the reception condition of the audio signal and the electronic musical instrument 100. And an audio signal from the information device 200 connected via the audio cable 300. The sound generation unit 108 generates a specific control sound for controlling the operation state of the information device 200 based on the operation state of And an external terminal 110).

  For example, as shown in FIG. 1, the information device 200 has an operation switch 202 having a button switch and a touch switch for instructing various operations, functions, settings, and the like in the information device 200 on one side of the device body. A display panel 204 is provided to display data to be transmitted to the musical instrument 100 and information related to various operations, functions, settings, and the like in the information device 200. In addition, the information device 200 includes a control sound generated from the electronic musical instrument 100, a microphone 206 for receiving voices, musical tones, external sounds and the like during a call operation and a recording operation, and a tone reproduction operation and a call operation. A sound producing unit 208 for producing musical tones and sounds, and an external terminal 210 for transmitting (outputting) an audio signal to the electronic musical instrument 100 connected via the audio cable 300 are provided.

  In an audio system including such an electronic musical instrument 100 and an information device 200, the electronic musical instrument 100 and the information device 200 are connected via a communication cable such as an audio cable 300, and predetermined data are transmitted from the information device 200 to the electronic musical instrument 100. Are transmitted unidirectionally in the form of audio signals. Further, according to the reception condition of data transmitted from the information device 200 in the electronic musical instrument 100, the operation condition in the electronic musical instrument 100, etc., a control sound having a specific sound signal predetermined with the information device 200 is produced. By receiving and analyzing the control sound in the information device 200, processing according to the reception status and operation status of the above data is performed.

Hereinafter, functional configurations and processing operations of the electronic musical instrument 100 and the information device 200 applied to the present embodiment will be described in detail.
(Electronic musical instrument)
FIG. 2 is a block diagram showing a configuration example of the hardware of the electronic musical instrument applied to the present embodiment.

  For example, as shown in FIG. 2, the electronic musical instrument 100 includes a CPU (central processing unit) 114, a ROM (read only memory) 116, a RAM (random access memory) 118, and a display unit 120 including a display panel 106. , An operation unit 122 including switches provided on the keyboard 102 and the operation panel 104, and an ADC (analog-digital conversion circuit) 112 connected to the external terminal 110, each directly connected to the system bus 134. ing. Further, the electronic musical instrument 100 includes a DSP (digital signal processor; sound source LSI) 126 and an ADC 124 as sound source units, a DAC (digital / analog conversion circuit) 128 as a sound generation unit, a power amplifier 130 and a speaker 132 The DSP 126 is connected directly to the system bus 134 with the ADC 124 at the input side and the DAC 128 connected at the output side.

  In the configuration as described above, the CPU 114 is a main processor for controlling the operation of each part of the electronic musical instrument 100, reads a predetermined control program stored in the ROM 116, and uses the RAM 118 as a data area and a work area By performing while, various control operations in the electronic musical instrument 100 are executed.

  Specifically, the CPU 114 transmits operation information input by operating the operation unit 122 having the keyboard 102 and the operation panel 104, and transmission from the external device (the information device 200) of the electronic musical instrument 100 via the external terminal 110. The tone pitch, volume, timbre, etc. of the musical tone are set based on the audio signal to be output, and the tone waveform data is output by the DSP 126 as a sound source unit, and a desired acoustic effect is given from the speaker 132 of the sound generating unit 108. It controls to make a tone sound be generated. In addition, the CPU 114 needs to control the information device 200 according to the reception status (for example, an error occurrence status) of an audio signal transmitted from the information device 200 via the external terminal 110, the operation status of the electronic musical instrument 100, and the like. And the type of control (for example, the type of error) to generate a control sound having a sound signal recognizable by the information device 200 and decided in advance with the information device 200 by using the DSP 126 of the sound source unit to generate sound. Control to cause the speaker 132 of the unit 108 to sound is performed. The control for generating the control sound according to the reception condition of the audio signal in the electronic musical instrument 100, the operation state of the electronic musical instrument 100, and the like will be described in detail later.

  The ROM 116 stores waveform data and parameter data of all timbres used in tone generation processing executed by the DSP 126 of the tone generator section, program data of control programs executed by the CPU 114 and the DSP 126, music data, and various other setting data. I remember. In particular, the ROM 116 uses a reference list (corresponding to an “error determination list” described later) for determining the reception status of the audio signal transmitted from the information device 200 and the operation status of the electronic musical instrument 100 and the like. A reference list (corresponding to a “control sound setting list” described later) is stored in which the necessity of control for the information device 200 based on the control type and the type of control and the characteristics of the sound signal to be the control sound are mutually associated. . Here, part of the ROM 116 may be built in the CPU 114, and the control program may be built in the CPU 114 in advance.

  The RAM 118 is provided with a data area and a work area for temporarily storing various data used or generated when the CPU 114 or the DSP 126 executes a predetermined control operation based on the control program stored in the ROM 116. . The memory unit including the ROM 116 and the RAM 118 may have a configuration in which a part thereof is detachable (that is, replaceable) with respect to the electronic musical instrument 100.

  The display unit 120 has a display panel 106 such as a liquid crystal display (LCD) or an organic EL display (ELD) that can display characters, numbers, illustrations, etc. Various types of information are displayed based on the processing to be performed and the like. The operation unit 122 has a keyboard 102 and an operation panel 104, and outputs operation information to the CPU 114 when a user (performer) performs key depression or switch operation.

  The external terminal 110 is an audio input terminal connected to the information device 200 via the audio cable 300, and after the audio signal of the analog signal transmitted from the information device 200 is received by the external terminal 110, digitalization is performed by the ADC 112 It is converted into a signal (digital data) and used for predetermined processing in the CPU 114 or the DSP 126. Here, the audio signal received through the external terminal 110 is used for real time tone reproduction operation according to the performance mode of the electronic musical instrument 100 or music data or electronic musical instrument in a memory unit including the ROM 116 and the RAM 118. After being stored (downloaded and stored) as data for setting or controlling the operation state of 100, it is used for tone reproduction operation.

  The DSP 126 of the sound source unit reads out waveform data corresponding to the pitch of the key instructed by the operation unit 122 from the ROM 116 based on an instruction from the CPU 114, or takes in from the outside via the ADC 124 to produce an audio tone. Signal processing to apply effects is performed and output as tone waveform data. Also, the DSP 126 of the sound source unit generates and outputs sound signal waveform data having characteristics set in advance, based on an instruction from the CPU 114. The DAC 128, the power amplifier 130, and the speaker 132 of the sound generation unit 108 convert the musical tone waveform data and the sound signal waveform data output from the DSP 126 into an analog signal (analog musical tone waveform signal) by the DAC 128, and then the predetermined signal by the power amplifier 130. It is amplified to a level and is emitted from the speaker 132 to the outside of the device as a musical tone or control sound.

(Information equipment)
FIG. 3 is a block diagram showing a configuration example of hardware of the information device applied to the present embodiment.

  For example, as shown in FIG. 3, the information device 200 includes a display unit 220 including a CPU 214, a ROM 216, a RAM 218, and a display panel 204, an operation switch 202 such as a button switch and a touch switch, and a front surface of the display panel 204. And a communication interface (communication I / F) unit 224, each of which is directly connected to the system bus 232. The information device 200 further includes a sound receiving unit 226 having a microphone 206, an audio signal output unit 212 connected to the external terminal 210, and a DAC 228 connected to the speaker 230 of the sound generating unit 208, each of which is a system bus It is directly connected to 232.

  In the configuration as described above, the CPU 214 is a main processor for controlling the operation of each part of the information device 200, reads a predetermined control program stored in the ROM 216, and uses the RAM 218 as a data area and a work area. By executing while, various control operations in the information device 200 are executed.

  Specifically, the CPU 214 performs various operations and functions such as a predetermined information processing operation, a call operation, and a recording operation based on operation information input by operating the operation switch 202 and the operation unit 222 having a touch panel. Control to execute. Further, the CPU 214 transmits an audio signal to the electronic musical instrument 100 via the external terminal 210, thereby controlling the electronic musical instrument 100 to generate a desired musical tone in real time or after downloading and storing. Further, the CPU 214 receives a sound produced from the speaker 132 of the electronic musical instrument 100 via the microphone 206 of the sound receiving unit 226, and a control sound having a specific sound signal predetermined with the electronic musical instrument 100. Is detected, and the control operation set in advance is executed by analyzing the characteristics of the sound signal to be the control sound. The control operation executed based on the control sound received by the information device 200 will be described in detail later.

  The ROM 216 stores program data of a control program executed by the CPU 214, data used in the program, and various other setting data. In particular, the ROM 216 is a reference list (corresponding to an “error type identification list” described later) for determining the reception status or operation status of data in the electronic musical instrument 100 based on the control sound received by the sound receiving unit 226. And a reference list (corresponding to an “error handling list” described later) in which the above determination result and the control operation in the information device 200 are associated with each other.

  The RAM 218 includes a data area and a work area for temporarily storing various data used or generated when the CPU 214 executes a predetermined control operation based on a control program stored in the ROM 216. Here, a part of the ROM 216 may be incorporated in the CPU 214 and a control program may be incorporated in the CPU 214 in advance. In addition, the memory unit including the ROM 216 and the RAM 218 may have a configuration in which a part thereof is detachable (that is, replaceable) with respect to the information device 200.

  The display unit 220 has a display panel 204 such as a liquid crystal display or an organic EL display capable of displaying characters, numbers, images, etc., and is used for an input operation in the operation unit 222 and a process performed inside the information device 200. Various information is displayed on the basis of this. In particular, the display unit 220 is notification information on an operation that is executed based on the analysis result of the control sound received through the microphone 206 of the sound receiving unit 226 by the CPU 214 or the result of the analysis. Is displayed. A specific example of the notification information displayed on the display unit 220 will be described later.

  The operation unit 222 has a touch panel integrally provided on the operation switch 202 and the display panel 204, and outputs operation information to the CPU 214 when the user performs a switch operation or an input operation. The sound receiving unit 226 receives a voice, a musical tone, an external sound, and the like outside the device with the microphone 206 at the time of a call operation, a recording operation, and the like in the information device 200. Further, the sound receiving unit 226 receives the control sound generated from the electronic musical instrument 100 by the microphone 206 and uses it for analysis processing in the CPU 214. Here, the sound receiving unit 226 has a configuration that is generally mounted as a microphone in information devices such as a smartphone and a tablet terminal that are widely marketed.

  The communication I / F unit 224 transmits or receives various data stored in a memory unit including the ROM 216 and the RAM 218 with a communication device outside the information device 200. Here, communication performed via the communication I / F unit 224 applies various communication methods using, for example, wired or wireless, and directly connects the information device 200 to an external communication device to transmit and receive data. It may be one that transmits and receives data via a network such as the Internet. Further, data may be exchanged using a storage medium such as a memory card.

  The external terminal 210 is an audio output terminal connected to the electronic musical instrument 100 via the audio cable 300, and the electronic musical instrument converts an audio signal converted into an analog signal by the audio signal output unit 212 based on an instruction from the CPU 214. Send to 100 Here, the external terminal 210 for outputting an audio signal of an analog signal has a configuration that is generally mounted as an earphone jack in information devices such as a smartphone and a tablet terminal that are widely marketed.

  The DAC 228 and the speaker 230 of the sound generation unit 208 make an audio signal converted into an analog signal by the DAC 228 from the speaker 132 to the outside of the device based on an instruction from the CPU 214 at the time of tone reproduction operation or call operation in the information device 200. To pronounce. Here, the audio signal output unit 212 and the DAC 228 may have a single common configuration, and an audio signal may be selectively output from the external terminal 210 or the speaker 230 based on an instruction from the CPU 214. .

  In the present embodiment, an electronic keyboard instrument is shown as an example of the electronic musical instrument (first electronic device) 100 applied to the sound system according to the present invention, and the electronic instrument (second electronic device) 200 is Although a smartphone and a tablet terminal are shown as an example, the present invention is not limited to this. That is, according to the present invention, as the first electronic device, at least an external terminal (audio terminal) to which an audio signal is input through an audio cable, and a second electronic device for outputting the audio signal are controlled. It may be one having a function of generating a control sound and a sound generation means for generating the control sound. Specifically, as the first electronic device, in addition to the electronic keyboard instrument, the electronic wind instrument, the electronic stringed instrument, etc., a smart device such as a smart phone or a tablet terminal, a personal computer, an audio device, an electronic dictionary, Various electronic devices such as portable and stationary game machines can be applied. Further, according to the present invention, as the second electronic device, an external terminal (audio terminal) for outputting an audio signal through at least an audio cable, and a sound receiving means for receiving control sound generated from the first electronic device. And a function to execute predetermined processing based on the control sound. Specifically, as the second electronic device, in addition to the smart devices such as the smartphone and the tablet terminal described above, various electronic devices such as personal computers and portable and stationary game machines can be applied. .

<Control method of sound system>
Next, a control method of the sound system according to the present embodiment will be described with reference to the drawings. Here, data is transmitted in the form of an audio signal of an analog signal from the information device 200 through the audio cable 300, and the electronic musical instrument 100 reproduces a musical tone in real time based on the data or reproduces a musical tone after downloading. The case will be described. Here, a series of control processes described below are realized by executing predetermined control programs in the CPU 114 and the DSP 126 of the electronic musical instrument 100 and the CPU 214 of the information device 200. When a smart device is applied as the information device 200, the control program is installed in the ROM 216 as an application program (hereinafter abbreviated as "application") in order to construct the audio system according to the present embodiment. It may be.

(Main routine)
FIG. 4 is a flowchart showing a main routine of the control method of the sound system according to the present embodiment.

  In the control method of the sound system according to the present embodiment, the following processing operations are performed. First, when the user activates the electronic musical instrument 100 and the information device 200, the respective CPUs 114 and 214 activate the main routine shown in FIG. 4 and execute initialization processing for initializing the respective portions of the electronic musical instrument 100 and the information device 200. (Step S402).

  Next, after completion of the initialization process, the user connects the audio cable 300 to the electronic musical instrument 100 and the external terminals 110 and 210 of the information device 200 (step S404), and operates both operation units 122 and 222 to transfer data. By setting the CPU 114, the CPUs 114 and 214 shift to a state where data transfer (transmission) is possible from the information device 200 to the electronic musical instrument 100 (step S406). Here, as described above, the method of shifting the operation state of the electronic musical instrument 100 and the information device 200 to the data transfer mode may be the operation by the operation units 122 and 222, or both of the audio cables 300 may be used. The state of being connected to the external terminals 110 and 210 may be detected by the CPUs 114 and 214 and transition may be made automatically.

  Next, after setting the data transfer mode, the user operates the operation unit 222 of the information device 200 to designate desired data, whereby the desired data is transmitted from the information device 200 to the electronic musical instrument 100 via the audio cable 300. Data transfer processing to be transmitted as an audio signal is executed (step S408). Here, in the data transfer process according to the present embodiment, the CPU 114 of the electronic musical instrument 100 monitors and determines the reception status of data (audio signal) transmitted from the information device 200 and the operating state of the electronic musical instrument 100 based on the data. Transfer error handling operation in which the CPU 214 of the information device 200 monitors and analyzes the control sound generated from the electronic musical instrument 100 along with the transfer error detection operation and handles an error condition etc. Run. The transfer error detection operation and the transfer error handling operation are executed substantially simultaneously in parallel in the electronic musical instrument 100 and the information device 200 during the execution of the data transfer process.

  Then, based on data transmitted from the information device 200 in the electronic musical instrument 100, or based on operation information obtained by the user operating the operation unit 122 such as the keyboard 102 or the operation panel 104, the tone reproduction operation Is executed (step S410). Here, the musical tone reproduction operation may be a real time reproduction that reproduces a musical tone in real time based on the data while receiving the data transmitted from the information device 200 by the data transfer processing described above. The data transmitted from 200 may be stored in a memory unit including the ROM 116 and the RAM 118, and download reproduction may be performed to reproduce a musical tone based on the data after the data transfer processing is completed.

Next, each operation performed during data transfer processing from the information device 200 to the electronic musical instrument 100 described above will be specifically described.
(Transfer error detection operation)
FIG. 5 is a flowchart showing a transfer error detection operation of the electronic musical instrument applied to the control method of the acoustic system according to the present embodiment. FIG. 6 is a view showing an example of the error determination list applied to the transfer error detection operation of the electronic musical instrument according to the present embodiment. FIG. 7 is a view showing an example of a control sound setting list applied to the transfer error detection operation of the electronic musical instrument according to the present embodiment.

  In the transfer error detection operation applied to the control method of the charging system according to the present embodiment, the CPU 114 of the electronic musical instrument 100 first performs the audio cable 300 during the data transfer process, as in the flowchart shown in FIG. The reception status of data (audio signal) transmitted from the information device 200 via the communication device 200 is sequentially monitored (step S502). Here, the CPU 114 constantly or periodically monitors whether or not an error set in advance is present in data having an audio signal input to the electronic musical instrument 100 via the external terminal 110 and the ADC 112 (step S506). ).

  When the CPU 114 detects an error in the received data during execution of the data transfer process (No in step S504) (Yes in step S506), the detected error is an error of any preset type. An error determination process is performed to determine whether it corresponds (step S508). In addition, even when the data transfer process does not end normally, such as the data transmitted from the information device 200 being illegally interrupted (No in step S504), the CPU 114 detects an error (Yes in step S506). The error determination processing is executed (step S508).

  On the other hand, when an error is not detected in the received data (No in step S506) during execution of the data transfer process (No in step S504), the processing operation of steps S502 to S506 is repeatedly executed. Then, when the data transfer processing is completed normally (Yes in step S504), the CPU 114 ends the transfer error detection operation and returns to the main routine shown in FIG.

  In the error determination process, the CPU 114 determines the type of error detected in steps S504 and S506 based on an error determination list in which the type of error and the detailed content of the error are associated in advance. Specifically, as shown in, for example, FIG. 6A, the CPU 114 detects a state in which data is not transferred from the information device 200 even though the electronic musical instrument 100 is in a data receiving state, as the detailed content of the error. If so, the type of error is determined to be "connection error". Such an error may occur, for example, when the audio cable 300 is not correctly connected to the electronic musical instrument 100 or the external terminals 110 and 210 of the information device 200 and is disconnected, or the communication volume in the program (application) on the information device 200 side is This occurs, for example, when the level is too small to transfer data normally.

  For example, as shown in FIG. 6B, the CPU 114 transmits data from the information device 200 as the detailed contents of the error, but the data information is incorrect (or an incorrect command has been received). If a state is detected, the type of error is determined to be "data error". Such an error is caused, for example, when the power condition of the electronic musical instrument 100 or the information device 200 is bad, and the data is garbled during communication, or the value of the data (original data) transmitted from the information device 200 is incorrect. Occurs when

  Also, as shown in FIG. 6C, for example, when detecting a state where the communication volume level is not an appropriate value as the detailed content of the error, the CPU 114 determines that the type of the error is "volume error". . Such an error occurs, for example, when the volume setting of the program (application) on the side of the information device 200 is too small or too large.

  Further, for example, as shown in FIG. 6D, when the CPU 114 detects a state in which the capacity of data to be stored exceeds the remaining memory capacity of the electronic musical instrument 100 as the detailed contents of the error, the type of error Is determined to be "memory full". Such an error occurs, for example, when the remaining capacity of the memory unit of the electronic musical instrument 100 is insufficient.

  For example, as shown in FIG. 6E, when the CPU 114 detects a state in which the capacity of data to be transferred exceeds a prescribed value that can be transferred at one time as the detailed content of the error, the type of error is It is determined that "size over". Such an error occurs, for example, when the capacity setting or transmission specification of data (original data) transmitted from the information device 200 is incorrect.

  Further, as shown in FIG. 6F, for example, when the CPU 114 detects a state where the transferred data can not be stored correctly in the electronic musical instrument as the detailed contents of the error, the type of the error is "save error". It is determined that Such an error occurs, for example, when the memory on the electronic musical instrument 100 side is not normal or is damaged. The occurrence of such storage errors has become extremely rare in recent years due to the high quality of memories.

  Next, based on the type of error determined in the error determination process (step S508), the CPU 114 executes control sound setting process for setting a control sound having a specific sound signal (step S510). Here, as the control sound, a sound signal of a pitch corresponding to the note number of the MIDI signal not used at the time of tone reproduction operation in the electronic musical instrument 100 is applied. For example, in the 88-key electronic keyboard instrument, note numbers 21 to 108 are used for tone reproduction in the entire range 0 to 127 of MIDI note numbers, so note numbers 0 to 20 and 109 to 127 are used. It has not been. The CPU 114 avoids the frequency (first frequency) of the pitch corresponding to the note numbers 21 to 108 used for tone reproduction, and notes not used for tone reproduction (that is, not assigned to the keyboard 102). A sound signal of a frequency (second frequency) corresponding to the numbers 0 to 20 and 109 to 127 is applied as a control sound. The CPU 114 sets a sound signal to be applied to the control sound based on a control sound setting list in which the note numbers 0 to 20 and 109 to 127 and the types of errors determined in the error determination process are associated in advance. Here, the sound signal applied to the control sound is a sound signal that can be recognized by the information device 200, and the correspondence relationship of each setting item in the control sound setting list is previously decided with the information device 200 which is an external device. The ROM 116 of the electronic musical instrument 100 and the ROM 216 of the information device 200 are stored in advance.

  Specifically, as shown in, for example, the control sound setting list of FIG. 7, when the type of error determined in the error determination process is “connection error”, the CPU 114 sets the note number to 112 as a control sound, for example. When a sound signal of the corresponding pitch (frequency of about 5274 Hz) is applied and the type of error is "data error", a sound having a note number corresponding to, for example, 116 as a control tone (frequency of about 6645 Hz) Apply the signal. Further, when the type of error is "volume error", the CPU 114 applies, as a control sound, a sound signal having a note number corresponding to, for example, 119 (frequency about 7902 Hz), and the type of error is "memory full. In the case of “1”, a sound signal with a pitch corresponding to, for example, the note number 122 (frequency about 9397 Hz) is applied as the control sound. Here, since the node numbers applied to the control sound have a certain extent (band) around the specific frequency described above, the corresponding sound signals have these bands for each type of error. A note number with a non-overlapping pitch is selected. As a result, it is possible to avoid confusion between the sound signal generated at the time of tone reproduction and the sound signal set for the control sound.

  Next, the CPU 114 causes the DSP 126 of the sound source unit to generate the control sound set in the control sound setting process (step S510) and causes the speaker 132 of the sound generation unit 108 to sound the sound (step S512). The generated control sound is used for a transfer error handling operation performed in the information device 200.

  Here, when the pitch of the sound signal applied to the control sound emitted from the speaker 132 is a frequency included in the external sound (environmental sound), the transfer error countermeasure performed in the information device 200 In operation, the control sound and the external sound may be confused, and the control sound may not be accurately detected and analyzed. Therefore, in addition to the fact that the control sound set in the control sound setting process can be recognized by the information device 200, the CPU 114 does not observe (or does not exist) external sound when the control sound is pronounced from the speaker 132. It controls the sound generation characteristics that are set to the rhythm, the sound generation time, and the volume, and controls the signal characteristics that performs modulation processing to transform it into a special signal waveform (such as pulse width). Thereby, in the information device 200, the control sound can be favorably detected while avoiding confusion with the external sound (environmental sound). The sounding characteristics and signal characteristics of such control sounds may be set to be different for each type of error.

  In addition, the CPU 114 displays on the display panel 106 of the electronic musical instrument 100 error information (notification information) corresponding to the type of error determined by the above-described error determination processing substantially simultaneously in parallel with the sound generation operation of the control sound in step S512. Do. Here, the display panel 106 mounted on the electronic musical instrument 100 is often a low-performance display having a small number of display dots for downsizing of the electronic musical instrument 100 and reduction of the product cost. The number of digits may be restricted. Therefore, as for the display on the display panel 106 including the above-mentioned error display, generally simple words, abbreviations, symbols, illustrations and the like are used.

  Specifically, when the type of error is "connection error" as shown in FIG. 6A, the CPU 114 displays, for example, an abbreviation "ReCV Err" as an error display on the display panel 106, as shown in FIG. As shown in (b), for example, the abbreviation “Data Err” is displayed in the case of “data error”, and in the case of “volume error” as shown in FIG. The abbreviation "+", "AppVol-" is displayed. When the type of error is "memory full" as shown in FIG. 6 (d), the CPU 114 displays, for example, an abbreviation "Mem Full" as an error display on the display panel 106, as shown in FIG. 6 (e). As shown in FIG. 6, for example, the abbreviation "Size Over" is displayed when "size over", and for example, the abbreviation "Save Err" when "saving error" as shown in FIG. 6F. Display

  The CPU 114 displays the above-described error information on the display panel 106 substantially simultaneously in parallel with the control sound generation operation in step S512, or in place of the display of the error information, for example, by the above-described error determination processing. The backlight of the display panel 106 or a predetermined light emitting unit disposed in the operation panel 104 may be made to emit light by a light emission pattern individually set corresponding to the type of the determined error. As a result, it is possible to promptly and accurately notify the user of the occurrence of an error.

  Then, after making the control sound produce from the speaker 132, the CPU 114 ends the transfer error detection operation and returns to the main routine shown in FIG. Thereafter, when the error is eliminated by an error handling operation described later and the data transfer process is executed again, the CPU 114 executes the transfer error detection operation again.

(Transfer error handling operation)
FIG. 8 is a flowchart showing the transfer error handling operation of the information device applied to the control method of the acoustic system according to the present embodiment. FIG. 9 is a view showing an example of the error handling list applied to the transfer error handling operation of the information apparatus according to the present embodiment.

  In the transfer error handling operation applied to the control method of the charging system according to the present embodiment, the CPU 214 of the information device 200 first performs the data transfer processing from the electronic musical instrument 100 as in the flowchart shown in FIG. The control sound to be produced is sequentially monitored by the microphone 206 of the sound receiving unit 226 (step S802). Here, in the external sound received by the CPU 214 through the microphone 206, a sound signal belonging to a frequency range including all note numbers associated with various error states in the above-described transfer error detection operation, or It is constantly or periodically monitored whether there is a sound signal that matches the sounding characteristics or signal characteristics set when the control sound is generated (step S806).

  In the monitoring state of the control sound, the electronic musical instrument 100 and the information device 200 are disposed relatively close to each other, and the control sound produced from the electronic musical instrument 100 is properly and properly received by the microphone 206 of the information device 200. It is desirable to be located in the range which can be made to sound. Specifically, the placement position of the information device 200 may be provided near the speaker 132 of the electronic musical instrument 100 to designate an appropriate position, or the dedicated audio cable 300 having a relatively short cable length may be used. By providing it as a dedicated accessory (genuine product) of the electronic musical instrument 100, when the audio cable 300 is connected to the information instrument 200, the information instrument 200 is specified to be located in an appropriate range from the speaker 132 of the electronic musical instrument 100. It may be

  Then, during execution of the data transfer process (No in step S 804), among the received external sounds, the CPU 214 is set to a control sound having a specific sound signal predetermined with the electronic musical instrument 100. When the sound signal is detected, it is determined that the control sound generated from the electronic musical instrument 100 according to the error state is detected (Yes in step S806), and the control sound analysis process analyzes the sound signal of the control sound. Is executed (step S808), and an error type determination process is performed to determine which type of error has occurred (step S810).

  On the other hand, when the control sound is not detected in the received external sound (No in step S806) during execution of the data transfer process (No in step S804), the processing operation of steps S802 to S806 is repeatedly executed. Then, when the data transfer processing is normally completed (Yes in step S804), the CPU 214 ends the transfer error handling operation and returns to the main routine shown in FIG.

  In the control sound analysis process, the CPU 214 analyzes the characteristics of the sound signal received as the control sound. Specifically, the CPU 214 determines the frequency of the sound signal set as the control sound corresponding to the type of error in the above-described transfer error detection operation, the rhythm or the sound generation time set at the time of sound generation of the sound signal, etc. The signal characteristics such as the pronunciation characteristics and the signal waveform are extracted, and it is analyzed which element is associated with the error. In such analysis processing, the information device 200 side performs information on the frequency of the control sound setting list used in the control sound setting process executed on the electronic musical instrument 100 side and the sounding characteristics and signal characteristics set when the control sound is generated. This is realized by storing and sharing in advance in a memory unit including the ROM 216 and the RAM 218.

  Next, in the error type determination process, the CPU 214 determines the type of error based on the frequency of the control sound extracted by the control sound analysis process, the sounding characteristic, and the signal characteristic, and specifies a method for coping with the error. Specifically, the CPU 214 determines the type of the error associated with the extracted frequency, the pronunciation characteristic, and the signal characteristic based on the error type discrimination list in which the frequency of the control sound and the type of error are associated in advance. . For example, when the pitch (frequency) of the sound signal to be the control sound is associated with the error, the CPU 214 sets a control sound setting list used for the control sound setting process executed on the electronic musical instrument 100 (see FIG. 7). The type of error (connection error, data error, volume error, memory full, etc.) is determined based on the error type determination list having the same information as that of the above.

  Next, the CPU 214 executes an error handling process (a specific operation) by identifying a method for handling the error determined from the control sound, based on the error handling list in which the types of errors and the respective handling methods are associated. S812). Specifically, for example, as shown in FIG. 9A, when the type of error determined is “connection error”, the CPU 214 transfers data from the information device 200 to the electronic musical instrument 100 as an error handling method. While canceling the operation, a message (notification information) such as "Please check that the audio cable is properly connected to the terminal" is displayed on the display panel 204 of the information device 200, and the user confirms the connection state of the audio terminal. Prompt. Note that “connection error” also occurs when the communication volume in the program on the side of the information device 200 is too low to allow normal data transfer, but in this case the CPU 214 will be described later as an error handling method. As in the case of "volume error", the volume is automatically adjusted inside the information device 200.

  Further, for example, as shown in FIG. 9B, when the type of the determined error is "data error", the CPU 214 automatically re-reads data from the information device 200 to the electronic musical instrument 100 as an error handling method. Along with the transfer, the display panel 204 displays, for example, a message "Transfer was not completed successfully. The message will be transferred again." To notify the user that an error handling operation is being performed. Here, if the transfer is not completed even if the CPU 214 retransfers data multiple times, the display panel 204 displays, for example, a message that "data may not be correct." To stop the transfer of data.

  Further, for example, as shown in FIG. 9C, when the type of the determined error is “volume error”, the CPU 214 automatically adjusts the volume of the program of the information device 200 as an error handling method. For example, a message “adjustment of communication volume level ...” is displayed on the display panel 204 to notify the user that an error handling operation is being performed. Here, the CPU 214 performs control to sequentially increase the volume if the volume setting of the program is too small, and performs control to sequentially decrease the volume if the volume setting is too large.

  Further, for example, as shown in FIG. 9D, when the type of the determined error is “memory full”, the CPU 214 cancels the data transfer from the information device 200 to the electronic musical instrument 100 as an error handling method. The display panel 204 of the information device 200 displays, for example, a message (notification information) that "memory is full. Delete stored data and secure memory." Encourage the remaining capacity to increase, or promote the transfer of other smaller data in the remaining memory capacity.

  Further, for example, as shown in FIG. 9E, when the type of the determined error is “size over”, the CPU 214 cancels the data transfer from the information device 200 to the electronic musical instrument 100 as an error handling method. For example, a message (broadcast information) of “The size exceeds the prescribed size. This data can not be transferred.” Is displayed on the display panel 204 of the information device 200 to prompt the user to change the volume setting of the transfer data. It encourages the transfer of other small data whose size is smaller than the specified value.

  Further, for example, as shown in FIG. 9F, when the type of the determined error is “save error”, the CPU 214 cancels the data transfer from the information device 200 to the electronic musical instrument 100 as an error handling method. Display a message (informational information) such as “The instrument storage function may be broken. Try again with another storage number.” On the display panel 204 of the information device 200, and save it to the user Prompt reselection of the area.

  Then, after the CPU 214 executes error handling processing corresponding to the type of error, it ends the transfer error handling operation and returns to the main routine shown in FIG. Thereafter, when the error is eliminated by a series of error handling operations and the data transfer process is executed again, the CPU 214 executes the transfer error handling operation again.

(Comparison of action and effect with comparative example)
Next, the comparative example is shown and the superiority of the effect of this embodiment is explained.
FIG. 10 is a diagram showing a comparative example (error handling list) of error handling methods in the acoustic system.

  Generally, when an electronic musical instrument and an information instrument are connected via an audio cable and data having an audio signal is transferred from the information instrument to the electronic musical instrument, an error shown in, for example, the error discrimination list in FIG. Conceivable. Here, in a system in which data is transmitted only from the information device to the electronic musical instrument and data can not be transmitted from the electronic musical instrument to the information device, the occurrence of an error at the time of data transfer is received Could be grasped by the electronic musical instrument side, but could not be grasped by the information equipment on the transmitting side. Therefore, as shown in FIG. 10, for example, the user can check the information displayed on the display panel of the electronic musical instrument and correct the error according to the type of error for the electronic musical instrument or the information device. It is necessary to execute a predetermined countermeasure and the operation load on the user is large. In particular, when the number of characters or the number of digits that can be displayed on the display panel mounted on the electronic musical instrument 100 is restricted, as shown in FIGS. Since the display is made with a symbol or a symbol, the user is less likely to notice the occurrence of an error, and can not immediately grasp the countermeasure as shown in FIG. As a result, there are cases where it is not possible to promptly deal with errors, and confusion in the coping method has resulted in the case where appropriate error handling is not performed.

  On the other hand, in the present embodiment, in an acoustic system in which the electronic musical instrument 100 and the information device 200 are connected via the audio cable 300 and an audio signal is transmitted from the information device 200 to the electronic musical instrument 100 in one direction, The reception condition of the audio signal is monitored by the musical instrument 100. When an error occurs, a specific control sound corresponding to the type of error is produced, and the control instrument generated by the information instrument 200 from the electronic musical instrument 100 is received. Take action according to the type of error. As described above, by feeding back the occurrence of an error at the time of data transfer from the electronic musical instrument 100 to the information device 200, substantially bidirectional data communication can be performed with a simple structure. In this way, the information device 200 displays the details of the error occurrence status and the type of error on the information device 200 to prompt the user to take an appropriate error treatment, or the information device 200 automatically executes an appropriate error treatment. As a result, it is possible to reduce the user's operation burden and stress for coping with errors, and to perform coping with errors promptly.

  In the control method of the acoustic system shown in the present embodiment, in the control sound setting process executed in the electronic musical instrument 100, each error type is associated in advance based on the control sound setting list shown in FIG. The case has been described where the sound signal of one note number is applied to the control sound to set one control sound for one type of error. The present invention is not limited to this, and one control sound may be set for a plurality of types of errors. That is, as shown in the control sound setting list, different note numbers are associated with different types of errors, so when multiple types of errors occur simultaneously during execution of data transfer processing, respectively, The sound signal of each note number corresponding to the kind of error of is extracted, and the compound sound which synthesizes them is applied to the control sound. Thereby, in the transfer error handling operation, it is possible to handle a plurality of types of errors with one control sound.

  Although the control sound set in the control sound setting process is applied to only the sound signal of the note number associated with each error type, the present invention is not limited to this. That is, the control sound may include at least the sound signal of the note number associated with the type of the error that has occurred, for example, the sound signal associated with the error that has occurred and other types of errors. Applying a composite sound obtained by synthesizing a sound signal of a note number not associated with each other and having a non-overlapping band (for example, a sound signal of a note number used for tone reproduction) as a control sound It may be As a result, it is possible to control the operation of the information device 200 by generating the control sound even during the reproduction of the musical tone.

  Furthermore, as the control sound set in the control sound setting process, the case has been described where the sound signal of the note number not used in the tone reproduction operation among the note numbers of the MIDI signal is applied. The present invention is not limited to this, and it is possible to use an audible range as long as a sound signal other than the frequency range including the pitches corresponding to all note numbers used for tone reproduction is applied as the control sound. Or may belong to the inaudible range. In this case, the frequency of the sound signal applied as the control sound can be recognized (detectable) by the microphone which is the sound receiving means mounted on the smart device such as a smartphone or a tablet terminal applied as the information device 200 It is set to the range.

Next, modifications of the above-described embodiment will be described.
<Modification 1>
In the embodiment described above, in the acoustic system in which predetermined data is transmitted from the information device 200 to the electronic musical instrument 100 in one direction through the audio cable 300, a specific sound signal associated with an error detected by the electronic musical instrument 100. The control method has been described in which the type of the error that has occurred in the information device 200 is transmitted to prompt the coping by sounding the control sound having the, and receiving and analyzing the information device 200.

  In the present modification, focusing on the fact that the acoustic system shown in the above-described embodiment can realize two-way data communication, the control sound generated from the electronic musical instrument 100 may be the above-described occurrence of the error or It is characterized in that information other than types is associated. Thus, by operating the switches such as the operation panel 104 in the electronic musical instrument 100 in the same manner as usual, the control sound having the sound signal associated with the operation is produced to control the operation in the information device 200. Or change the setting value of the program (application).

  Specifically, for example, when playing back a musical tone in real time in the electronic musical instrument 100 based on an audio signal transmitted from the information device 200, the volume of the operation panel 104 etc. is increased or decreased. By applying the sound signal associated with the operation signal as the control sound, the volume setting in the information device 200 is adjusted by the switch operation of the electronic musical instrument 100. Then, by transmitting an audio signal having the adjusted volume setting to the electronic musical instrument 100, the volume of the electronic musical instrument 100 is changed and set, and reflected in the tone reproduction.

  In addition, for example, when the electronic musical instrument 100 reproduces a musical tone in real time based on an audio signal transmitted from the information device 200, the electronic musical instrument 100 and the information device 200 manage the communication state including the musical tone reproduction state. The keyboard link in the information device 200 is operated by the switch operation of the electronic musical instrument 100 by applying, as a control sound, a sound signal associated with a control signal of a switch that sets execution of the keyboard link processing (keyboard link processing program) ON or OFF. The ON or OFF setting of the process execution is controlled.

  Further, when reproducing the musical tone in real time in the electronic musical instrument 100 based on the audio signal transmitted from the information device 200, the generation of the control sound is associated with the interval of the silencing in correspondence with the tempo (reproducing speed) of the musical tone. Thus, the tempo setting in the information device 200 is adjusted on the basis of the interval between the sounding of the control sound received by the microphone of the information device 200 by the switch operation of the electronic musical instrument 100 and the mute. Then, by transmitting an audio signal having the adjusted tempo setting to the electronic musical instrument 100, the tempo in the electronic musical instrument 100 is changed and set, and reflected in the tone reproduction.

  In addition, when reproducing a musical tone in real time in the electronic musical instrument 100 based on an audio signal transmitted from the information device 200, for example, it is associated with a control signal of a switch that sets the transpose function, which is a kind of acoustic effect, ON or OFF. By applying the sound signal as a control sound, the switch operation of the electronic musical instrument 100 controls the ON / OFF setting of the information processing device 200 (whether or not the function can be provided). Then, by transmitting an audio signal having the controlled function setting to the electronic musical instrument 100, ON or OFF of the transpose function in the electronic musical instrument 100 is set and reflected in musical tone reproduction.

<Modification 2>
FIG. 11 is a block diagram showing a modification of the hardware of the electronic musical instrument applied to the present embodiment.

  In the embodiment described above, as shown in FIG. 2, the case where the external terminal 110 of the electronic musical instrument 100 is connected to the system bus 134 via the ADC 112 has been described. Here, the ADC 112 performs a calibration process of measuring the amplitude (signal level) of the amplitude of the signal and correcting the audio signal of the analog signal transmitted from the information device 200 via the external terminal 110 to an appropriate value. It is a necessary configuration in the case. Further, the ADC 112 is a configuration necessary when transmitting data for reproducing a musical tone and data for setting and controlling an operation state of the electronic musical instrument 100 in combination with an audio signal.

  In this modification, for example, as shown in FIG. 11, the external terminal 110 of the electronic musical instrument 100 is directly connected to the system bus 134. That is, in the configuration of the electronic musical instrument 100 shown in FIG. 2, the ADC 112 is omitted. In a configuration in which such an ADC 112 is omitted, the audio signal of the analog signal transmitted from the information device 200 via the external terminal 110 has a stable and appropriate waveform without being affected by noise, attenuation, and the like. The present invention can be applied to the case where the audio signal is used only for data transmission for setting and controlling the operation state of the electronic musical instrument 100 (that is, when the calibration process does not need to be performed). Thereby, the configuration and control operation of the electronic musical instrument 100 can be simplified. In addition, in place of the audio cable 300 for transmitting the audio signal of the analog signal as described above, a communication cable capable of transmitting a digital signal is connected to the external terminal 110 in place of the audio cable 300 for transmitting the analog signal. The present invention can also be applied to the case of transmitting an audio signal or data.

Although some embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, but includes the invention described in the claims and the scope of equivalents thereof.
In the following, the invention described in the original claims of the present application is appended.

(Supplementary note)
[1]
Setting means for setting an operation state based on a signal received from an external device via communication means in which data is transmitted in one direction;
Sound generation means for generating musical tones;
First sound generation control means for controlling the sound generation of the musical tone by the sound generation means according to the operation state set by the setting means;
The second sound generation unit is a sound that can be recognized by the external device when it is determined that the specific operation of the external device needs to be controlled, and a control sound for controlling the specific operation is generated by the sound generation unit. Pronunciation control means,
Electronic equipment equipped with

[2]
The communication means is a communication cable,
The apparatus further comprises a determination unit that determines whether it is necessary to control a specific operation of the external device,
The second sound generation control unit is a sound that can be recognized by the external device when it is determined by the determination unit that the specific operation of the external device needs to be controlled, and controls the specific operation. Generating a control sound by the sound generation means;
The electronic device according to [1].

[3]
The communication cable is an audio cable,
It further comprises third sounding control means for causing the sounding means to sound the musical tone corresponding to the audio signal received via the audio cable.
The setting means sets the operation state based on digital data obtained by converting an audio signal received via the audio cable.
The electronic device according to [2].

[4]
The determination means determines whether it is necessary to control the transmission operation of a signal by the external device via the communication cable,
The second sound generation control means is a sound previously determined with the external device when it is determined by the determination means that the transmission operation of the external device needs to be controlled, and the transmission operation is performed Generating a control sound for controlling the sound by the sound generation means,
The electronic device as described in [2] or [3].

[5]
The determination means determines the type of control of the characteristic operation performed by the external device;
The second sound generation control means is determined by the determination means from among a plurality of sounds predetermined with the external device, corresponding to each of the types of control determined by the determination means. Selecting a sound corresponding to the type of control and causing the sound generation means to emit the sound as the control sound;
The electronic device according to any one of [2] to [4].

[6]
The determination means detects an error associated with receipt of a signal through the communication cable,
The second sound generation control means includes a type of control for coping with the error.
The electronic device according to [5].

[7]
An operation unit that causes the user to perform an operation to specify a pitch;
And fourth sound generation control means for causing the sound generation means to generate a musical tone having a pitch designated by the operation of the operation unit.
The electronic device according to any one of [1] to [6].

[8]
The second sound generation control means is a sound predetermined in advance with the external device, the sound generation having a pitch different from a pitch that can be specified by the operation of the operation unit as the control sound. Make it sound by means,
The electronic device as described in [7].

[9]
The second sound generation control means causes the sound generation means to sound the sound of the second frequency determined so as to avoid the first frequency included in the musical tone generated from the sound generation means as the control sound. ,
The electronic device according to any one of [1] to [8].

[10]
The second sound generation control means generates, as the control sound, a sound of a note number of a MIDI signal not used for the generation of the musical tone.
The electronic device according to [9].

[11]
A light emitting unit,
A light emission control unit configured to cause the light emitting unit to emit light with a specific light emission pattern when it is determined that the specific operation of the external device needs to be controlled;
The electronic device according to any one of [2] to [6].

[12]
An acoustic system comprising: a first electronic device according to any one of [1] to [11]; and a second electronic device as the external device.

[13]
The second electronic device is
Data transmission means for transmitting the data to the first electronic device via the communication means;
Sound receiving means for receiving a sound produced from the first electronic device;
When it is determined that the sound received by the sound receiving means is the control sound previously decided with the first electronic device, the specific operation is executed according to the control sound, Specific operation control means for controlling transmission of the data to the first electronic device by the data transmission means;
Acoustic system according to [12].

[14]
Controlling the sound generation of the musical tone by the sound generation means in accordance with the operation state set based on the signal received from the external device through the communication means in which data is transmitted in one direction;
When it is determined that it is necessary to control a specific operation of the external device, the sound generation unit generates a control sound that can be recognized by the external device and that controls the specific operation.
Control method of electronic device.

[15]
On the computer
Setting an operation state based on a signal received from an external device via communication means in which data is transmitted in one direction;
Controlling the sound generation of the musical tone by the sound generation means according to the set operation state;
When it is determined that it is necessary to control a specific operation of the external device, the sound generation unit generates a control sound that can be recognized by the external device and that controls the specific operation.
Control program for electronic devices.

100 Electronic Musical Instruments (Electronic Equipment, First Electronic Equipment)
102 Keyboard (operation section)
104 Operation Panel (Light Emitting Unit)
106 Display Panel (Light Emitting Unit)
110 External terminal 114 CPU (setting means, first sound generation control means, second sound generation control means, determination means, third sound generation control means, fourth sound generation control means, light emission control means)
126 DSP (first sound generation control means, second sound generation control means, third sound generation control means, fourth sound generation control means)
132 Speaker (sounding means)
200 information equipment (external equipment, second electronic equipment)
204 Display panel 206 Microphone (sound receiving means)
214 CPU (data transmission means, specific operation control means)
210 External terminal 212 Audio signal output unit (data transmission means)
300 audio cable (communication method, communication cable)

Claims (15)

Setting means for setting an operation state based on a signal received from an external device via communication means in which data is transmitted in one direction;
Sound generation means for generating musical tones;
First sound generation control means for controlling the sound generation of the musical tone by the sound generation means according to the operation state set by the setting means;
The second sound generation unit is a sound that can be recognized by the external device when it is determined that the specific operation of the external device needs to be controlled, and a control sound for controlling the specific operation is generated by the sound generation unit. Pronunciation control means,
Electronic equipment equipped with The communication means is a communication cable,
The apparatus further comprises a determination unit that determines whether it is necessary to control a specific operation of the external device,
The second sound generation control unit is a sound that can be recognized by the external device when it is determined by the determination unit that the specific operation of the external device needs to be controlled, and controls the specific operation. Generating a control sound by the sound generation means;
The electronic device according to claim 1. The communication cable is an audio cable,
It further comprises third sounding control means for causing the sounding means to sound the musical tone corresponding to the audio signal received via the audio cable.
The setting means sets the operation state based on digital data obtained by converting an audio signal received via the audio cable.
The electronic device according to claim 2. The determination means determines whether it is necessary to control the transmission operation of a signal by the external device via the communication cable,
The second sound generation control means is a sound previously determined with the external device when it is determined by the determination means that the transmission operation of the external device needs to be controlled, and the transmission operation is performed Generating a control sound for controlling the sound by the sound generation means,
The electronic device of Claim 2 or 3. The determination means determines the type of control of the characteristic operation performed by the external device;
The second sound generation control means is determined by the determination means from among a plurality of sounds predetermined with the external device, corresponding to each of the types of control determined by the determination means. Selecting a sound corresponding to the type of control and causing the sound generation means to emit the sound as the control sound;
The electronic device according to any one of claims 2 to 4. The determination means detects an error associated with receipt of a signal through the communication cable,
The second sound generation control means includes a type of control for coping with the error.
The electronic device according to claim 5. An operation unit that causes the user to perform an operation to specify a pitch;
And fourth sound generation control means for causing the sound generation means to generate a musical tone having a pitch designated by the operation of the operation unit.
The electronic device according to any one of claims 1 to 6. The second sound generation control means is a sound predetermined in advance with the external device, the sound generation having a pitch different from a pitch that can be specified by the operation of the operation unit as the control sound. Make it sound by means,
The electronic device according to claim 7. The second sound generation control means causes the sound generation means to sound the sound of the second frequency determined so as to avoid the first frequency included in the musical tone generated from the sound generation means as the control sound. ,
The electronic device according to any one of claims 1 to 8. The second sound generation control means generates, as the control sound, a sound of a note number of a MIDI signal not used for the generation of the musical tone.
The electronic device according to claim 9. A light emitting unit,
A light emission control unit configured to cause the light emitting unit to emit light with a specific light emission pattern when it is determined that the specific operation of the external device needs to be controlled;
The electronic device according to any one of claims 2 to 6.   An acoustic system comprising: a first electronic device which is the electronic device according to any one of claims 1 to 11; and a second electronic device which is the external device. The second electronic device is
Data transmission means for transmitting the data to the first electronic device via the communication means;
Sound receiving means for receiving a sound produced from the first electronic device;
When it is determined that the sound received by the sound receiving means is the control sound previously decided with the first electronic device, the specific operation is executed according to the control sound, Specific operation control means for controlling transmission of the data to the first electronic device by the data transmission means;
An acoustic system according to claim 12. Controlling the sound generation of the musical tone by the sound generation means in accordance with the operation state set based on the signal received from the external device through the communication means in which data is transmitted in one direction;
When it is determined that it is necessary to control a specific operation of the external device, the sound generation unit generates a control sound that can be recognized by the external device and that controls the specific operation.
Control method of electronic device. On the computer
Setting an operation state based on a signal received from an external device via communication means in which data is transmitted in one direction;
Controlling the sound generation of the musical tone by the sound generation means according to the set operation state;
When it is determined that it is necessary to control a specific operation of the external device, the sound generation unit generates a control sound that can be recognized by the external device and that controls the specific operation.
Control program for electronic devices.

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