JP2014048570A - Effector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an effector allowing a player to easily recognize change of an effect type by an operation of an operation element without looking at the operation element.SOLUTION: An effector includes: a single operation element 10 that changes an effect type added to a musical sound signal and adjusts a parameter of each effect; and means (an oscillator 42, an oscillator control unit 22) to generate a notification sound signal for notification of the change with a sound when the effect type is changed by an operation of the operation element.

Description

  The present invention relates to an effector for adding an effect to a tone signal output from an instrument such as an electric guitar.

  An effector for adding an effect to a musical sound signal is widely used.

  There are a configuration in which one type of effect can be added to the effector and a configuration in which various types of effects can be added. Patent Document 1 describes an effector configured to be able to add dynamics, distortion, modulation, delay, and reverb effects. In Patent Document 1, five effect selectors and five parameter adjustment knobs are provided as operators for selecting these five types of effects and adjusting the parameters of each effect.

JP 2006-53253 A

  By the way, for example, in order to reduce the size and weight of the effector, the effector as described in Patent Document 1 to which a plurality of types of effects can be added requires a large number of operators. The existence of was a factor that hindered miniaturization and weight reduction.

  On the other hand, an effector configured so that the effect type can be switched and the parameter of each effect can be adjusted by operating a single operator has been put to practical use. The size and weight can be reduced, and the price can be reduced.

  Since the controls are arranged on the panel, effectors configured to switch the effect type and adjust the parameters of each effect with a single control can visually check the effect status. In general, characters, figures, and the like are printed on the panel surface around the operation element so that they can be recognized.

  If characters, figures, etc. are displayed around the controls in this way, the instrument player can recognize the position where the effect type switches, for example, by looking at the display, but he is playing the instrument. It may be difficult for the performer to see the display, or it may be annoying to see.

  On the other hand, if a headphone is equipped with an effector configured to switch the effect type and adjust the parameters of each effect with a single controller, the player who wears the headphone will be able to Since characters and the like cannot be seen, even when the effect type is switched during operation of the operation element, there is a problem that it is difficult to know when the effect is switched.

  In view of the above-described problems, an object of the present invention is to provide an effector that enables a player to easily recognize the change of the effect type when the operation element is operated. .

  According to the first aspect of the present invention, the effector that performs switching of the effect type added to the musical sound signal and adjustment of the parameter of each effect with a single operator switches the effect type by operating the operator. Sometimes, a means for generating a notification sound signal for notifying the switching by sound is provided.

  According to a second aspect of the present invention, in the first aspect of the present invention, an effect unit for adding an effect to a musical sound signal, an effect control unit for controlling the effect unit in accordance with an operation of an operator, and a notification sound signal as an output signal of the effect unit The means for generating the notification sound signal includes an oscillator and an oscillator control unit that controls the output timing of the oscillator in accordance with the operation of the operation element.

  According to a third aspect of the present invention, in the second aspect of the present invention, the peak detector for detecting the amplitude of the tone signal and the magnitude of the notification sound signal input to the adder according to the amplitude detected by the peak detector are controlled. An output control unit.

  According to a fourth aspect of the present invention, in the second aspect of the present invention, the peak detection unit for detecting the amplitude of the output signal of the effect unit, and the magnitude of the notification sound signal input to the adder according to the amplitude detected by the peak detection unit An output control unit for controlling the height.

  According to a fifth aspect of the present invention, in the second aspect of the present invention, the peak detector for detecting the amplitude of the signal obtained by adding the tone signal to the output signal of the effect unit, and the input to the adder according to the amplitude detected by the peak detector And an output control unit for controlling the magnitude of the notification sound signal.

  According to a sixth aspect of the present invention, in any one of the first to fifth aspects, the effector is mounted on the headphones.

  According to a seventh aspect of the invention, in the first aspect of the invention, a headphone connection terminal is provided, and a notification sound signal is output to the headphone connection terminal.

  According to an eighth aspect of the present invention, in any one of the second to fifth aspects, the headphone connection terminal is provided, and the output signal of the adder is output to the headphone connection terminal.

  According to the present invention, when the effect type is switched during operation of the operator, the player can easily recognize the switching.

The block diagram which shows the function structure of the 1st Example of the effector by this invention. The figure for demonstrating the peak detection waveform of the peak detection part in FIG. The figure for demonstrating the control method of the output control part in FIG. The figure which shows the example of mounting to the headphones of the effector shown in FIG. The block diagram which shows the function structure of the 2nd Example of the effector by this invention. The block diagram which shows the function structure of the 3rd Example of the effector by this invention.

  Embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 shows the structure of a first embodiment of an effector according to the present invention. In this example, the effector is composed of an operation element 10, a main control unit 20, an A / D converter 30, a DSP (digital signal processor) 40, and a D / A converter 50.

  In the DSP 40, an effect unit 41 for adding various effects to the musical sound signal is constructed, and in this example, an oscillator 42, a peak detection unit 43, an output control unit 44, and an adder 45 are constructed. In this example, the effect unit 41 can add three types of effects of chorus, delay, and reverb.

  Switching the type of effect added to the musical sound signal and adjusting the parameters of each effect are performed by operating a single operator 10. The operation element 10 is of a type that is rotated, for example, and is configured such that three types of effects are switched according to the rotation of the operation element 10, and the operation element 10 is operated to rotate within an angle region corresponding to each effect. By doing so, the parameters of each effect can be adjusted. The operation element 10 is provided with an OFF position. If the operation element 10 is rotated to this OFF position, no effect is added to the musical sound signal.

  The main control unit 20 includes a CPU, and includes an effect control unit 21 that controls the effect unit 41 in accordance with an operation of the operation element 10 and an oscillator control unit 22.

  A musical tone signal output from a musical instrument such as an electric guitar is output to the A / D converter 30 and A / D converted. The output signal of the A / D converter 30 (A / D converted musical sound signal) is input to the effect unit 41 of the DSP 40, and a desired effect is added according to the operation of the operator 10.

  The oscillator 42 and the oscillator control unit 22 constitute means for generating a notification sound signal for notifying the player who has operated the operating element 10 with sound when the effect type is switched by operating the operating element 10. doing. The oscillator control unit 22 controls the output timing of the oscillator 42 according to the operation of the operation element 10. For example, when the operation unit 10 is operated to switch from OFF → chorus → delay → reverb, the oscillator control unit 22 has three switching positions including OFF → chorus switching positions. The output of the oscillator 42 is turned ON, and a notification sound signal is output from the oscillator 42.

  In this example, the magnitude of the notification sound signal is controlled according to the level of the input musical sound signal.

  The peak detector 43 detects the amplitude of the output signal (A / D converted musical sound signal) from the A / D converter 30 and outputs the detection result to the output controller 44. The notification sound signal output from the oscillator 42 and the detection result of the peak detection unit 43 are input to the output control unit 44, and the output control unit 44 converts the magnitude of the notification sound signal into the detection result input from the peak detection unit 43. Control accordingly.

  FIG. 2 exemplifies a peak detection waveform detected by the peak detection unit 43 with respect to an input signal (output signal of the A / D converter 30) input to the peak detection unit 43, and a indicates a detection amplitude. . The peak detection waveform is a waveform that attenuates at a constant rate from amplitude a to 0 over a predetermined time T as shown in FIG. Note that T is set, for example, in the range of several tens to several hundreds of ms. The peak detection unit 43 outputs the peak detection waveform shown in FIG. 2 to the output control unit 44 as a detection result.

  The notification sound signal whose amplitude (magnitude) is controlled according to the amplitude of the peak detection waveform in the output control unit 44 is input to the adder 45, and the adder 45 adds the notification sound signal to the output signal of the effect unit 41. Output. The output signal of the adder 45 is input to the D / A converter 50, subjected to D / A conversion, and output to the outside of the effector (for example, a power amplifier).

  According to the effector having the above-described configuration, when the effect type is switched during operation of the operation element 10, a notification sound signal indicating the switching is output. Thus, it is possible to recognize that the effect type has been switched, and therefore, it is possible to easily recognize the effect type switching without looking at the operation element 10, that is, without having to look at the operation element 10. The child 10 can be comfortably operated.

  For example, the player may not hear a low volume notification sound (beep sound) while playing the instrument at a high volume, or conversely, a high volume notification sound will be output during a low volume performance. In this example, the loudness of the notification sound is controlled according to the loudness of the performance sound as described above. Therefore, such a problem can be solved.

FIG. 3 shows a specific method for controlling the magnitude of the notification sound signal in the output control unit 44 in relation to the notification sound volume obtained as a result of the control and the performance sound volume input to the effector. Yes, as shown in FIG. 3, the notification sound volume is proportional to the performance sound volume when the performance sound volume is in the range of the predetermined values V _{1 to} V ₂ , and the notification sound is below the predetermined value V ₁ and above the predetermined value V _2. It is assumed that the sound volumes maintain predetermined values W ₁ and W ₂ , respectively. By controlling in this way, it is possible to prevent the notification sound volume from becoming zero or excessive.

  The notification sound indicating the switching of the effect type need only be heard by the performer, and the notification sound signal is output to the headphone connection terminal of the effector. That is, in the configuration shown in FIG. 1, the output signal of the D / A converter 50 is output to the headphone connection terminal.

  On the other hand, an effector may be mounted on the headphones. FIG. 4 shows a headphone 100 on which an effector having the configuration shown in FIG. 1 is mounted. In the figure, reference numerals 101 and 102 denote ear cups of the headphone 100. The effector is built in, for example, one ear cup 101. As shown in FIG. 4, the effector operator 10 is arranged on the peripheral surface of the ear cup 101 and protrudes from the peripheral surface.

  When the effector is mounted on the headphones in this way, the effector according to the present invention can operate the operation element 10 comfortably without looking at the operation element 10, so that it is extremely easy to use.

  FIG. 5 shows the structure of a second embodiment of the effector according to the present invention. In this example, the magnitude of the notification sound signal is not controlled based on the output signal of the A / D converter 30, but the magnitude of the notification sound signal is controlled based on the output signal of the effect unit 41. Yes. The peak detection unit 43 ′ detects the amplitude of the output signal of the effect unit 41 and outputs a peak detection waveform similar to that shown in FIG. 2 to the output control unit 44. Instead of the configuration shown in FIG. 1, the configuration as shown in FIG. 5 can be adopted.

  Next, the configuration of the third embodiment of the effector according to the present invention shown in FIG. 6 will be described.

  A musical sound signal itself with an effect added may be amplified by an amplifier and emitted from a speaker. For example, when adding an effect to a musical sound signal output from an electric guitar, the musical sound signal with the added effect is used. Addition to the original musical sound signal is generally performed. FIG. 6 shows the configuration in this case. In FIG. 6, 60 indicates an adder, and 70 and 80 indicate amplifiers.

  The output signal of the D / A converter 50 is input to the adder 60, and the adder 60 adds the output signal of the D / A converter 50 to the original musical sound signal. The output signal of the adder 60 is amplified by the amplifier 80. In this example, the magnitude of the notification sound signal is controlled based on the output signal of the amplifier 80. The output signal of the amplifier 80 is input to the A / D converter 90 and A / D converted, and the peak detector 43 ″ detects the amplitude of the output signal of the A / D converter 90 and outputs the peak detection waveform to the output controller. 44.

  In this example, since the volume of the notification sound is controlled according to the output level (output volume) of the sound to be emitted, it can be said that this is a more preferable method for controlling the notification sound.

  Although the digital effect using digital signal processing has been described as an example as an embodiment, the effect unit 41 may be configured as an analog effect using an analog circuit, and the oscillator 42 may be configured with an analog oscillation circuit. In this case, the A / D converter 30 and the D / A converter 50 are not necessary.

  Although various embodiments have been described above, the effects that can be added by the effect unit 41 are not limited to chorus, delay, and reverb as described above, and are not limited to three types. Further, the operation element 10 has been described as a type that is operated to rotate, but is not limited thereto, and may be a type that is operated to slide.

DESCRIPTION OF SYMBOLS 10 Operation element 20 Main control part 21 Effect control part 22 Oscillator control part 30 A / D converter 40 DSP
41 Effect section 42 Oscillator 43, 43 ', 43 "Peak detection section 44 Output control section 45 Adder 50 D / A converter 60 Adder 70, 80 Amplifier 90 A / D converter 100 Headphone 101, 102 Ear cup

Claims (8)

An effector that switches the type of effect added to a musical sound signal and adjusts the parameters of each effect with a single operator.
An effector comprising: means for generating a notification sound signal for notifying the change by sound when the effect type is changed by the operation of the operator. The effector according to claim 1, wherein
An effect unit for adding an effect to the musical sound signal;
An effect control unit that controls the effect unit according to the operation of the operator;
An adder for adding the notification sound signal to the output signal of the effect unit;
The means for generating the notification sound signal includes an oscillator and an oscillator control unit that controls an output timing of the oscillator according to an operation of the operation element. The effector according to claim 2, wherein
A peak detector for detecting the amplitude of the musical sound signal;
An effector comprising: an output control unit that controls the magnitude of the notification sound signal input to the adder according to the amplitude detected by the peak detection unit. The effector according to claim 2, wherein
A peak detection unit for detecting the amplitude of the output signal of the effect unit;
An effector comprising: an output control unit that controls the magnitude of the notification sound signal input to the adder according to the amplitude detected by the peak detection unit. The effector according to claim 2, wherein
A peak detection unit for detecting an amplitude of a signal obtained by adding the musical sound signal to the output signal of the effect unit;
An effector comprising: an output control unit that controls the magnitude of the notification sound signal input to the adder according to the amplitude detected by the peak detection unit. The effector according to any one of claims 1 to 5,
An effector, wherein the effector is mounted on a headphone. The effector according to claim 1, wherein
Headphone connection terminal
An effector, wherein the notification sound signal is output to the headphone connection terminal. The effector according to any one of claims 2 to 5,
Headphone connection terminal
An effector, wherein an output signal of the adder is output to the headphone connection terminal.

Images