Patent Application
20080072739
An explanation will be given below regarding an example embodiment of the present invention while referring to the attached drawings.
As shown in the embodiment in
The input terminal 2 may be formed using a jack or other suitable connection means and may be mounted such that the plug that forms the output terminal of the connecting cord from an electrical guitar pickup or a microphone can be freely inserted and removed. The electrical signal that has been input to the input terminal 2 is input to the A/D converter 3.
The A/D converter 3 samples the analog electrical signal that has been input at a specified sampling frequency (e.g. 44.1 kHz), quantifies this using a specified number of bits (e.g. 16 bits), and inputs the digital signal that has been converted to the DSP 4.
The DSP 4 is a digital signal processor and processes the digital signal that has been converted by the A/D converter 3. In this exemplary embodiment, either the tuner function or the amplifier function may be selected by the user and in those cases where the tuner function has been selected, the DSP 4 detects the zero cross of the waveform of the digital signal and informs the CPU 8. When the notification of the zero cross is input, the CPU 8 detects the period (i.e. the pitch) of the input signal based on the time interval that has been generated by the zero cross.
In those cases where the amplifier function has been selected, the DSP 4 converts the digital signal to the type of modeling that has been set by the user, applies effects (e.g. distortion, reverb, etc.) and outputs to the D/A converter 5. The DSP 4 stores a pitch processing program 4a for the detection of the pitch, an effect processing program 4b that converts the input signal or applies an effect to the input signal, and executes any programs in conformance with the instructions of the CPU 8.
The D/A converter 5 converts the digital signal that has been processed by the DSP 4 in the amplifier function to an analog electrical signal and outputs that analog electrical signal to the power amplifier 6. The power amplifier 6 amplifies the analog electrical signal and outputs the amplified signal to the speaker 7. The speaker 7 converts the amplified analog electrical signal into sound.
According to the described embodiment, the CPU 8 is an arithmetic processing unit and each of the various control programs that are executed by the CPU 8 as well as the fixed value data that are referred to at the time of execution are stored in the ROM 10. The chromatic scale table and the guitar table that are referred to in the tuner function may be stored as fixed value data. For the chromatic scale table, the pitches that correspond to each of the letter notations that comprise the chromatic scale (C, C#, D, D#, etc.) may be stored. For the guitar table, the open string pitches for each of the six strings of a guitar, and the pitches of the scale that are used for the so-called irregular tuning (A ♭ and A ♭ ♭) may be stored. The stored pitches, as the standard pitches, are compared with the pitch that has been detected by the DSP 4 when the tuner function is selected.
The RAM 9 is memory for the temporary storage of each of the various kinds of data at the time of the execution of the control programs by the CPU 8 and is configured to be rewritable.
In the embodiment shown in
The amplifier for a musical instrument in this embodiment may be used with an electric guitar and is described as such. The amplifier may also be used with other instruments or sound generating devices. Classified broadly, there are the cases in which the electric guitar is used as the lead guitar and cases in which the electric guitar is used as the backing (second) guitar and it is possible to produce the optimum settings for each of the cases by switching using the switch 12b. The setting for a lead guitar is called the lead channel and the setting for a backing guitar is called the clean channel. In those cases where the clean channel has been selected, the LED 11a is lit, and in those cases where the lead channel has been selected, the LED 11c is lit. Incidentally, in the tuner function the LED 11a, LED 11b, and LED 11c display the deviation of the pitch that has been detected with respect to the standard pitch. In detail, the LED 11a indicates the fact that the detected pitch is lower than the standard pitch, the LED 11b indicates the fact that the detected pitch matches the standard pitch, and the LED 11c indicates the fact that the detected pitch is higher than the standard pitch.
The operator that is used in the clean channel is the volume control 12a and the operators that are used in the lead channel are, the rotary switch 12d, the gain control 12e, and the volume control 12f. The other operators may be used in common in both the clean channel and the lead channel.
The volume control 12a sets the level of the volume of the clean channel and the volume control 12f sets the level of the volume of the lead channel. The rotary switch 12d selects the type of modeling in the lead channel and the modeling is set by means of the processing by the DSP 4 that simulates the timbre characteristics of the instrument and the reproduction amplifier for, for example, an electric guitar or an acoustic guitar and the like, which respectively correspond to each of the selection positions of model 1, model 2, etc. Incidentally, with regard to the rotary switch 12d, in those cases where the tuner function has been selected, which functions as an operator that designates the letter notation of an open string of the guitar. The string number and the letter notation of the open string of the guitar are indicated by the rotational position that is designated by the rotary switch 12d. Since the first string is tuned to the letter notation E, 1E is displayed and, in the same manner, 2B is displayed for the second string, 3G for the third string, 4D for the fourth string, 5A for the fifth string, and 6E for the sixth string. In addition, A ♭ and A ♭ ♭, with which irregular tuning is designated, are each displayed in two positions apart from these six positions.
The gain control 12e sets the amount of distortion. The bass control 12g, the mid-range control 12h, and the treble control 12i are arranged in the portion of the operating panel in which equalizer is displayed and these adjust the levels of the low register, the middle register, and the high register, respectively.
In addition, the effect control 12j is arranged in the portion of the operating panel in which the effect is displayed. Any effect such as chorus, flanger, phaser, and tremolo can be applied by means of the position of the control. Further, it is possible to set the degree of the effect by the position of the control.
In the same manner, the delay/reverb control 12k is arranged in the portion in which delay/reverb is displayed. The delay or reverb effect is applied by means of the rotational position of the control and, together with this it is possible to set the delay time or the volume of the reverb with the rotational position of the control.
Other than the operators described above, the input terminal 2, the foot switch terminal, into which the plug from the foot switch is inserted, and the recording out terminal, which is an output for recording use, are arranged on the operating panel.
The tuner button 12c is a switch that toggles the tuner function and the amplifier function. In those cases where the power switch 12n of the amplifier for a musical instrument 1 has been operated and the power turned on, the amplifier for a musical instrument 1 may be set to the amplifier function and can be switched to the tuner function when the tuner button 12c is pressed. The tuner button 12c is furnished with an LED that is built in; and, in those cases where the tuner function is selected, lights or blinks in conformance with the mode, which will be discussed later. In those cases where the amplifier function is selected, the LED is extinguished.
In the tuner function, there are a manual mode and an auto mode. When the tuner button is pressed for a short period of time (for example, shorter than one second) during the amplifier function, the tuner function is set to the manual mode.
When the tuner button 12c is pressed for a long period of time (for example, one second or more; hereinafter, referred to as “long pressing”) during the amplifier function or during the manual mode of the tuner function, the tuner function is set to the auto mode. The LED that is built into the tuner button 12c is lit at the time of the manual mode, and blinked at the time of the auto mode.
In those cases where the tuner button 12c is pressed for a short period of time, no matter whether in the case of the manual mode or the auto mode, the amplifier returns to the amplifier function from the tuner function.
In the manual mode, the pitch that is designated using the rotary switch 12d is selected as the standard pitch. The pitch that is designated by the rotary switch 12d is stored in the guitar table 10b of the ROM 10. When the data that indicate the pitch that has been detected are input from the DSP 4 to the CPU 8, the CPU 8 makes a determination as to whether the pitch that has been detected is lower, matches, or is higher than the standard pitch that is set using the rotary switch 12d and in those cases where the pitch is lower, the LED 11a, which is positioned on the left side, lights, in those cases where the pitch matches, the LED 11b lights, and in those cases where the pitch is higher, the LED 11c on the right side lights. Incidentally, it may be set up such that the pitches are considered to match if in those cases where a determination is made as to whether or not the pitches match, the detected pitch is within a specified range of the standard pitch (for example, ±5 cents).
On the other hand, in the auto mode, the letter notation of the chromatic scale that is the closest to the detected pitch is selected as the standard pitch. Accordingly, the setting of the rotary switch 12d is ignored in the auto mode. The pitch that corresponds to the letter notation of the chromatic scale that is selected as the standard pitch is stored in the chromatic scale table 10a of the ROM 10. When the data that indicate the pitch that has been detected are input from the DSP 4 to the CPU 8, the CPU 8 extracts the pitch that is the closest to the pitch that has been detected from the chromatic scale table 10a, sets that pitch as the standard pitch, and makes a determination as to whether the detected pitch is lower, matches, or is higher than the standard pitch. In those cases where the pitch is lower, the LED 11a, which is positioned on the left side, lights, in those cases where the pitch matches, the LED 11b lights, and in those cases where the pitch is higher, the LED 11c on the right side lights.
Incidentally, in the auto mode, it may also be set up such that rather than selecting the letter notation of the chromatic scale that is the closest to the detected pitch, the pitch of the open string of a guitar that is the closest to the detected pitch is selected as the standard pitch. In those cases where the letter notation of the chromatic scale that is the closest to the detected pitch is selected as the standard pitch, after tuning once, it is possible to set different pitches a half tone at a time by visually confirming the lighting condition of the three LEDs while gradually changing the tension of the string. However, in those cases where the tuning is carried out by a beginner who is not used to tuning, a large change may be made in the tension of the string and the standard pitch will be changed from the target pitch. When the pitch of an open string of a guitar is selected as the standard pitch, the danger that a mistaken standard pitch will be selected is small since the difference from the pitch of the adjacent open strings is four to five half tones.
Next, an explanation will be given regarding the tuner processing that is executed by the CPU 8 while referring to
In the tuner processing, first, a determination is made as to whether or not the tuner button 12c has operated with a long pressing (S1). In those cases where the button has not been operated with a long pressing (S1: no), the mode flag is set to “0” and the LED that is built into the tuner button 12c lights (S2). This mode flag is a flag that is stored in the RAM 23 and “0” and “1” indicate that the mode has been set to the manual mode and the auto mode respectively.
On the other band, in those cases where the tuner button 12c has been operated with a long pressing (S1: yes), the mode flag is set to “1” and it is set up the such that the LED that is built into the tuner button 12c is blinked (S3).
Next, the pitch of the input signal is detected based on the time interval of the generation of the zero cross that has been notified from the DSP 4 (S4) and, then, a determination is made as to whether or not the mode flag has been set to “0” (S5).
In those cases where the mode flag has been set to “0” (S5: yes), the unit has been set to the manual mode, so the position to which the rotary switch 12d has been set is read out (S6) and the pitch that is indicated by the rotary switch is selected as the standard pitch (S7). This standard pitch has been stored in the guitar table of the ROM 10 corresponding to the position to which the rotary switch 12d has been set.
On the other hand, in those cases where, in the determination processing of S5, the mode flag has been set to “1” (S5: no), the unit is set to the auto mode, so the pitch of the chromatic scale that is the closest to the pitch that has been detected is selected from the chromatic scale table that has been stored in the ROM 10 and that pitch is made the standard pitch (S8). Incidentally, the standard pitch that has been selected in S7 or S8 may be stored in the RAM 9 and it may also be set up such that the address in the table in which the standard pitch has been stored is stored in the RAM 9.
When the standard pitch has been selected by the processing of S7 or S8, then, the standard pitch and the pitch that has been detected are compared (S9) and in those cases where the pitches match (S10: yes), the middle LED 11b lights (S11), in those cases where the detected pitch is lower (S10: no and S12: yes), the LED 11a on the left side lights (S13), and in those cases where the detected pitch is higher (S10: no and S12: no), the LED 11c on the right side lights (S14). Incidentally, in those cases where any one of the three LEDs has been lit, the other two LEDs are extinguished. In those cases where the processing of S11, S13, or S14 has completed, a determination is made as to whether or not the tuner button 12c has been operated (S15). In those cases where the tuner button 12c has not been operated (S15: no), the routine returns to the processing of S4 and in those cases where the tuning button 12c has been operated (S15: yes), a determination is made as to whether or not the setting of the mode flag is “0” (S16).
In those cases where the mode flag has been set to “0” (S16: yes), the unit is set to the manual mode, so a determination is made as to whether or not the tuning button 12c has been operated by pressing for a long period of time (S17). In those cases where the mode flag has not been set to “0” (S16: no), the unit is set to the auto mode, so the tuner function ends and the unit returns to the amplifier function.
In those cases where the tuning button 12c has been operated with a long pressing (S17: yes), since this is an instruction to change to the auto mode from the manual mode, it is set up such that the mode flag is made “1” and the LED that is built into the tuning button 12c is blinked (S18), and the routine returns to the processing of S4.
As has been explained above in regards to the manual mode, the tuning is carried out by designating one of the pitches of an open guitar string as the standard pitch. Similarly, in the auto mode, it is possible to select the pitch of the chromatic scale that is the closest to the pitch that has been detected or the pitch of an open string of a guitar as the standard pitch and carry out the tuning. Therefore, in those cases where the string is restrung, the standard pitch is selected and the tuning done in the manual mode; and, in the case of the following tunings, it is possible to carry out the tuning in the auto mode with a display that only indicates low, matching, and high. Accordingly, it becomes unnecessary to have a display device that displays the standard pitch that has been selected in the auto mode, the tuning system of the present invention can be installed even in those cases where there is no space for the installation of a display device, and, together with this, it is possible to provide a tuner system and an amplifier for a musical instrument that has been furnished with a tuner function at low cost.
An explanation was given above regarding the present invention based on a preferred embodiment but the present invention is not in any way limited to the preferred embodiment that has been discussed above and the possibility of various modifications and changes that do not diverge from and are within the scope of the tenor and purport of the present invention can be easily surmised.
For example, in this preferred embodiment, it has been set up such that the ROM 10 is furnished with a chromatic scale table and the like that stores the pitches (the frequencies) that correspond to each scale of the chromatic scale but it may also be set up such that the pitches of the chromatic scale are calculated using an operational expression and with regard to the storage of the pitches having a specified interval and the chromatic scale of the interval of the pitches that have been stored, it may also be set up such that these are derived by calculation.
In addition, in the preferred embodiment described above, with regard to the setting of any pitch desired (for example, an A at 440 Hz) to be the standard for the tuning, although it is not mentioned, it may also be set up such that the scale that is set may be any scale desired selected from those such as an equal temperament, a just intonation, an Arabian scale, and the like.
In addition, in the preferred embodiment described above, it has been set up such that the tuner function is incorporated in the amplifier for a musical instrument; but the tuner function may also be incorporated in another electrical device such as an electric musical instrument and the like and it may be an independent tuner system that is not incorporated in an electric musical instrument or an electronic musical instrument and the like.
In addition, in the preferred embodiment described above, it has been set up such that the rotary switch 12d is one that, in the amplifier function, selects the type of modeling that simulates the timbre characteristics of a musical instrument and a reproduction amplifier but it may also be set up such that the switch selects the type of control that changes the frequency characteristics of the input signal or that selects the effect that is applied to the input signal.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2006-256124 | Sep 2006 | JP | national |
