JP4058931B2 - Musical sound generator and musical sound generation processing program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a musical sound generating apparatus and a musical sound generating process program.
[0002]
[Prior art]
Conventionally, there is a communication for connecting a personal computer to an outlet of a subscriber line provided on an indoor wall, that is, a wired line outlet, accessing a communication network such as the Internet from the personal computer, and downloading various information contents from the communication network. Widely done. Also, in a musical sound generating device such as an electronic musical instrument, a musical information is downloaded from a music distribution server by accessing a communication network such as the Internet via a personal computer.
In recent years, portable information processing apparatuses such as notebook personal computers and PDAs (personal digital assistants) have become widespread. Since such an information processing apparatus is not restricted in place of use, it is more convenient to connect a mobile phone instead of connecting to a wired line outlet and access a communication network such as the Internet via the mobile phone. . Therefore, communication for downloading various information contents is being performed via a mobile phone.
[0003]
[Problems to be solved by the invention]
On the other hand, musical tone generators such as electronic musical instruments have recently been reduced in size and weight, and the place where the musical tone generator is used has not been stopped. Therefore, a proposal has been made to connect a mobile phone to a musical tone generator, access a communication network such as the Internet via the mobile phone, and download content of musical tone information from a server. By the way, in general, a musical tone generator has built-in sounding means such as an amplifier and a speaker or is connected to an external sounding means.
For this reason, unlike information processing apparatuses such as notebook personal computers and PDAs, noise generated by radio waves from a mobile phone may be emitted from a speaker depending on the electronic components and wiring structure that constitute the sound generation means.
An object of the present invention is to prevent noise generated by radio waves from a mobile phone from being generated even when communication is performed by connecting the mobile phone to a musical sound generator.
[0004]
[Means for Solving the Problems]
The musical sound generating device according to claim 1 is a connecting means to which an external wireless communication device can be connected, a signal processing means for performing an output process of processing a musical sound signal inputted from the sound source means and outputting it to the sounding means, Via a mode setting means for setting one of the normal mode and the communication mode, and an external wireless communication apparatus connected to the connection means when the mode setting means sets the communication mode. A receiving means for receiving information from a connected communication network; a detecting means for detecting noise generated from the sounding means by radio waves emitted by the external wireless device when the receiving means is receiving information; and When it is detected that noise is generated by the detection means, a control signal for instructing the signal processing means to stop the output processing is sent, and the mode setting is performed. Has a control means for stopping the transmission of the control signal in response to the normal mode is set, the structure having the unit.
[0005]
The musical sound generation processing program according to claim 2 is a connection means to which an external wireless communication device can be connected, a signal processing means for performing an output process of processing a musical sound signal input from the sound source means and outputting it to the sounding means. The computer applied to the musical sound generating apparatus having the steps of: setting to one of the normal mode and the communication mode; and, when the communication mode is set, an external device connected to the connection means Receiving information from a communication network connected via a wireless communication device; detecting noise generated from the sound generation means by radio waves emitted by the external wireless device when receiving the information; When it is detected that noise is generated, a control signal is sent to the signal processing means to stop the output processing, and the mode setting is performed. Has a step of stopping the transmission of the control signal in response to the normal mode is set, a configuration in which the execution by means.
[0006]
According to the invention described in claim 1 or claim 2, detection Oite during receiving the information via an external wireless communication device, a noise generated from the sound generating means by a radio wave which the wireless communication device emits If so, a control signal for stopping output processing from the signal processing means to the sound generation means is sent out.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, first to third embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a system configuration of a musical sound generating apparatus according to the first embodiment. In the figure, CPU 1 is a control means for controlling this system, and is connected to ROM 2, RAM 3, switch 4, sound source 5, serial I / F (interface) 6 and I / O port 7 connected to the system bus. Send and receive commands and data.
The ROM 2 stores a control program executed by the CPU 1 and initial data. The RAM 3 is a work area of the CPU 1 and temporarily stores data processed by the CPU 1 and is provided with various flag areas necessary for executing the control program. The switch 4 is provided with a mode switch for setting a normal mode for performing normal musical sound processing or a communication mode for performing communication processing, in addition to various switch groups necessary for generating musical sounds.
[0008]
The sound source 5 is composed of a DSP (digital signal processor) that executes a musical sound generation algorithm, and generates a musical sound signal in accordance with a sound generation command of the CPU 1. A D / A converter 8 is connected to the sound source 5, and an amplifier 9 is connected to the D / A converter 8. The D / A converter 8 converts the musical sound signal output from the sound source 5 from digital to analog and inputs it to the input terminal of the amplifier 9. An amplified tone signal is output from the output terminal of the amplifier 9 to the speaker 10. The amplifier 9 amplifies and outputs a signal input when the control terminal 9a is at a high level “1”, and stops output when the control terminal 9a is at a low level “0”.
[0009]
A mobile phone I / F 11 is connected to the serial I / F 6 and the I / O port 7. A mobile phone 12 can be connected to the mobile phone I / F 11 and can be connected to the Internet and other communication networks via the mobile phone 12. The serial I / F 6 transmits control data of the CPU 1 to the mobile phone 12 via the mobile phone I / F 11. The I / O port 7 passes data received from the mobile phone 12 via the mobile phone I / F 11 to the CPU 1. Although the I / O port 7 is configured as a device separate from the CPU 1, it can also be configured as an input / output port of the device of the CPU 1.
From one port A of the I / O port 7, a control line 14 is connected to the reception enable terminal 11 a of the mobile phone I / F 11 and the input terminal of the inverter 13. A control signal of low level “0” is transmitted. When the port A is “1”, the reception port of the mobile phone I / F 11 becomes active, and data from the Internet can be received via the mobile phone 12.
Further, the output terminal of the inverter 13 is connected to the control terminal 9a of the amplifier 9, and when the port A is "1", the output terminal of the inverter 13 is "0". To stop.
[0010]
Next, the operation in the first embodiment will be described with reference to the flowcharts of the CPU 1 shown in FIGS.
FIG. 2 shows a main flow. After a predetermined initialization process (step A1), the switch 4 scans the switch 4 to search for on / off of each switch (step A2), via the Internet connected by the mobile phone 12. Then, the communication processing for communicating with the music distribution server (step A3), the sound source processing for generating a musical sound signal by the sound source 5 and generating the sound from the speaker 10 (step A4), and other processing (step A5) are repeatedly executed.
[0011]
FIG. 3 is a flow of switch processing in the main flow. It is determined whether or not the mode switch is turned on (step B1). When this switch is turned on, the mode flag MF is inverted (step B2). Then, the process returns to the main flow. If this switch is not turned on, it is determined whether or not another switch is turned on (step B3). When another switch is turned on, a process corresponding to the turned on switch is performed (step B4). Then, the process returns to the main flow.
[0012]
FIG. 4 is a flow of communication processing in the main flow. First, it is determined whether or not the mode flag MF is “1 (communication mode)” (step C1). If the MF is “0 (normal mode)”, this flow is terminated. If the MF is “1”, it is determined whether or not the mobile phone 12 is in a connected state (step C2). This connection state is not just a hardware connection, but determines whether or not the mobile phone 12 is in an active state. For example, when a command is output to the mobile phone 12 via the serial I / F 6 and the mobile phone I / F 11 and a response message is received from the mobile phone 12, the mobile phone 12 is connected in the on state, that is, the active state. Can be judged.
[0013]
If the mobile phone 12 is not in the connected state, this flow is terminated. If the mobile phone 12 is in the connected state, it is determined whether or not the download has started (step C3). When the user accesses the Internet by operating the mobile phone 12 and requests the music distribution server to download music data via the Internet, the user receives a download start message from the server. When the download start message is not received, this flow is terminated. When the download start message is received, the port A of the I / O port 7 is set to “1” (step C4), and the high-level control signal is set to the cellular phone I. / F11 is applied to the reception enable terminal 11a to enable the reception port. Then, download processing is performed in which music data downloaded from the Internet accessed via the mobile phone 12 is taken in via the mobile phone I / F 11 and the parallel port of the I / O port 7 (step C5).
At the same time, the high level control signal is inverted by the inverter 13 and the low level control signal is applied to the control terminal 9 a of the amplifier 9. As a result, the amplifier 9 is disabled, and output processing from the amplifier 9 to the speaker 10 is stopped.
Then, it is determined whether or not the download is completed (step C6). If the download is not completed, the download process is continued. When the download is completed, the mode flag MF is returned to “0” (step C7), the port A is returned to “0” (step C8), and the reception port of the mobile phone I / F 11 is disabled, that is, cannot be received. Put it in a state. At the same time, since a high-level control signal is given to the control terminal 9a of the amplifier 9, the amplifier 9 returns to the active state. After returning port A to “0”, the process returns to the main flow. Note that the amplifier 9 also returns to the active state when the MF is changed to “0 (normal mode)” by the switch operation.
[0014]
As described above, according to the first embodiment, the control signal for stopping the output process from the amplifier 9 to the speaker 10 is sent during the period in which information is received from the Internet via the mobile phone 12. Even when communication is performed by connecting the mobile phone 12 to the musical sound generator, noise generated by radio waves from the mobile phone 12 is not generated.
In this case, the CPU 1 sends out a control signal when the mode is changed from the normal mode to the communication mode according to the mode change operation of the switch 4, and stops sending the control signal when the mode is changed from the communication mode to the normal mode. The noise generated by the radio wave from the mobile phone 12 is not generated by extremely simple control.
[0015]
Next, a second embodiment of the present invention will be described.
FIG. 5 is a block diagram showing a system configuration in the second embodiment of the present invention. As shown in the figure, the system configuration in the second embodiment is basically the same as the system configuration of the first embodiment in FIG. Accordingly, the same components are denoted by the same reference numerals, description thereof is omitted, and different portions will be described.
The I / O port 7 of the second embodiment is provided with two output ports, port A and port B. The control line 14 is directly connected to the control terminal 9a of the amplifier 9 from the port A without using the inverter as in the first embodiment. On the other hand, the control line 15 is connected to the enable terminal 11a of the mobile phone I / O 11 from the port B. In the normal state, port A is set to “1” and port B is set to “0”.
[0016]
Next, the operation of the second embodiment will be described.
Since the main flow and the flow of the switch process in the second embodiment are the same as those in the first embodiment, the drawings and description are omitted.
FIG. 5 is a flow of communication processing in the second embodiment. First, it is determined whether or not the mode flag MF is “1 (communication mode)” (step D1). If the MF is “0 (normal mode)”, this flow is terminated. If the MF is “1”, it is determined whether or not the mobile phone 12 is in a connected state (step D2). If the mobile phone 12 is not in the connected state, this flow is terminated, but if it is in the connected state, the port B of the I / O port 7 is set to “1” (step D3). As a result, the reception port of the mobile phone I / O 11 is enabled.
[0017]
Next, it is determined whether or not a noise signal generated by radio waves from the mobile phone 12 has been detected (step D3). That is, it is determined whether or not the noise level exceeds a predetermined threshold value. When a noise signal is detected, the port A of the I / O port 7 is set to “0” (step D5). As a result, the amplifier 9 enters a disable state in which output processing is stopped. Therefore, no noise sound is produced from the speaker 10. When the noise signal is not detected, the port A maintains the state of “1” in the normal mode.
In FIG. 5, the noise signal detection circuit is not particularly described, but the detection method used in the prior art is used. For example, the output of the final amplification stage or an intermediate amplification stage in the amplifier 9 is monitored, the noise level there is compared with a predetermined threshold by a comparator, and the presence or absence of a noise signal is determined by the binary output value of the comparator. To detect.
[0018]
After the port A is set to “0” or when no noise signal is detected, a download process is performed in which music data received from the Internet via the mobile phone 12 is taken in (step D6). Then, it is determined whether or not the download has been completed (step D7). If the download has not ended, it is determined whether or not the port A is “1” (step D8). When the port A is “1”, the process proceeds to step D4 to determine whether or not a noise signal is detected. Then, after determining the state of the port A according to the noise detection discrimination result, the download process in step D6 is continued. On the other hand, if the port A is set to “0” in step D8, the process proceeds to step D6 and the download process is continued.
[0019]
When the download is completed, the port B is returned to “0” (step D9). As a result, the cellular phone I / F 11 is disabled. Then, the mode flag MF is returned to “0 (normal mode)” (step D10). Next, it is determined whether or not the port A is “0” (step D11). If the port A is “0”, the port A is returned to “1” (step D12). As a result, the amplifier 9 becomes active. When the port A is “1” in step D11, or after the port A is returned to “1” in step D12, the process returns to the main flow.
[0020]
As described above, in the second embodiment, the CPU 1 detects the noise level generated by communication via the mobile phone 12, and the output process of the amplifier 9 when the detected noise level exceeds a predetermined threshold value. Since a control signal for stopping is transmitted, noise generated by radio waves from the mobile phone 12 is not pronounced.
As a modification of the second embodiment, a signal having a phase opposite to that of the detected noise signal may be generated, and the generated signal may be superimposed on the noise signal to perform noise cancellation.
[0021]
Next, a third embodiment of the present invention will be described.
The system configuration in the third embodiment is the same as the system configuration of the first embodiment in FIG. Therefore, the operation of the third embodiment will be described with reference to FIG.
FIG. 7 shows a main flow of the third embodiment. After a predetermined initialization process (step E1), the switch 4 scans the switch 4 to search for on / off of each switch (step E2). Then, the communication processing for communicating with the accessed server (step E3), the sound source processing for generating a musical sound signal by the sound source 5 and generating the sound from the speaker 10 (step E4), and other processing (step E5) are repeatedly executed.
[0022]
FIG. 8 is a communication process flow of step E3 in the main flow. First, it is determined whether or not a flag DF indicating whether downloading is in progress or not (step F1). When DF is “1”, downloading is in progress, and when DF is “0”, downloading is not in progress. In step F1, when DF is “0”, it is determined whether or not the mode flag MF is “1 (communication mode)” (step F2). If the MF is “0 (normal mode)”, this flow is terminated. If the MF is “1”, it is determined whether or not the mobile phone 12 is in a connected state (step F3). If the mobile phone 12 is not in a connected state, this flow ends.
[0023]
If the mobile phone 12 is in a connected state, it is determined whether or not downloading has started (step F4). When the user accesses the Internet by operating the mobile phone 12 and requests the music distribution server to download music data via the Internet, the user receives a download start message from the server. When the download start message is not received, this flow is terminated. When the download start message is received, the port A of the I / O port 7 is set to “1” (step F5), and the high-level control signal is set to the cellular phone I. / F11 is applied to the reception enable terminal 11a to enable the reception port. At the same time, the high level control signal is inverted by the inverter 13 and the low level control signal is applied to the control terminal 9 a of the amplifier 9. As a result, the amplifier 9 is disabled, and output from the amplifier 9 to the speaker 10 is stopped. Next, DF is set to “1 (downloading)” (step F6).
[0024]
Next, download processing is performed in which music data downloaded from a server accessed via the mobile phone 12 is taken in via the mobile phone I / F 11 and the parallel port of the I / O port 7 (step F7). Then, it is determined whether or not the download is completed (step F8), and if not completed, the process returns to the main flow. When the download is completed, the DF is returned to “0” and the process returns to the main flow. If the DF is “1” in step F1, the process proceeds to step F7 and the download process is continued.
[0025]
FIG. 9 is a flowchart of the sound source process in step E4 in the main flow. First, it is determined whether or not MF is “1 (communication mode)” (step G1). If MF is “1”, the output signal of sound source 5 is detected (step G2). Then, it is determined whether or not the detected output signal exceeds a predetermined threshold value TH (step G3). If the threshold value TH is exceeded, MF is returned to “0 (normal mode)” (step G4), and port A is returned to “0” (step G5). As a result, the mobile phone I / F 11 is disabled and the amplifier 9 is active. Next, a sound generation process (step G6) is performed. Then, the process returns to the main flow.
If the MF is “0” in step G1, the sound generation process in step 6 is performed. If the output signal detected in step G3 is less than or equal to the predetermined threshold TH, this flow is terminated and the process returns to the main flow.
[0026]
As described above, in the third embodiment, when the level of the musical sound signal output from the sound source 5 and input to the amplifier 9 exceeds the predetermined threshold value TH, the CPU 1 transfers to the control terminal 9a of the amplifier 9. Since the transmission of the control signal is stopped, for example, the music data can be monitored with the amplifier 9 in the active state even during the download.
[0027]
In each of the above embodiments, the tone generation processing is executed by the control program stored in advance in the ROM 2, but the tone generation processing program is installed and executed in a rewritable ROM such as a flash memory. It may be. In this case, the invention of the program is realized.
The program processes a musical sound signal input from the sound source means during a first step of receiving information from a communication network connected via an external wireless communication device, and during a period when the information is received in the first step. And a second step of sending a control signal for stopping the output processing in the signal processing means for outputting to the sound generation means.
In this case, the second step sends a control signal when the mode is changed from the normal mode to the communication mode according to the mode change operation, and stops sending the control signal when the mode is changed from the communication mode to the normal mode.
In this case, the second step transmits a control signal when the noise level generated by communication via the external wireless communication device exceeds a predetermined threshold.
In this case, the second step stops the transmission of the control signal when the level of the tone signal output from the sound source means and input to the signal processing means exceeds a predetermined threshold value.
[0028]
【The invention's effect】
According to the present invention, even when a predetermined wireless communication device is connected to a musical sound generating device for communication, noise generated by radio waves from the wireless communication device is not pronounced.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a system configuration of a musical sound generating apparatus according to a first embodiment of the present invention.
FIG. 2 is a main flowchart of a CPU according to the first embodiment.
FIG. 3 is a flowchart of switch processing in FIG. 2;
4 is a flowchart of communication processing in FIG. 2. FIG.
FIG. 5 is a block diagram showing a system configuration of a musical sound generating apparatus according to a second embodiment of the present invention.
FIG. 6 is a flowchart of communication processing in the second embodiment.
FIG. 7 is a main flowchart of a CPU in the third embodiment.
8 is a flowchart of communication processing in FIG.
9 is a flowchart of sound source processing in FIG.
[Explanation of symbols]
1 CPU
2 ROM
3 RAM
4 Switch 5 Sound source 6 Serial I / F
7 I / O port 9 Amplifier 10 Speaker 11 Mobile phone I / F
12 Mobile phone 13 Inverter

Claims (2)

A connection means to which an external wireless communication device can be connected;
A signal processing means for performing an output process for processing a musical sound signal input from the sound source means and outputting the processed sound signal to the sound generation means;
Mode setting means for setting one of a normal mode and a communication mode;
A receiving means for receiving information from a communication network connected via an external wireless communication device connected to the connection means when the communication mode is set by the mode setting means;
Detecting means for detecting noise generated from the sounding means by radio waves emitted by the external wireless device when the receiving means is receiving information;
When it is detected that noise is generated by the detection means, a control signal for instructing the signal processing means to stop the output processing is sent, and a normal mode is set by the mode setting means. Control means for stopping the transmission of the control signal in response to
A musical sound generator. A computer applied to a musical sound generator having connection means to which an external wireless communication device can be connected and signal processing means for performing output processing for processing a musical sound signal input from a sound source means and outputting it to a sounding means. ,
Setting one of a normal mode and a communication mode;
Receiving information from a communication network connected via an external wireless communication device connected to the connection means when the communication mode is set;
Detecting noise generated from the sound generation means by radio waves emitted by the external wireless device when receiving the information;
When it is detected that noise is generated, a control signal instructing the signal processing means to stop the output processing is sent, and in response to the normal mode being set by the mode setting means Stopping the transmission of the control signal;
A program for generating music.

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