An electronic percussion instrument and sound production control method thereof are provided. In an electronic cymbal, the output of a musical sound is controlled in accordance with the results of detection from a strike sensor when the strike sensor detects a strike on a striking surface. While the musical sound is output, if a user touches the striking surface, an electrostatic capacitance sensor outputs an output value in accordance with the contact condition so that the musical sound is attenuated in accordance with the output value while being output. Therefore, the user can attenuate the musical sound being output in accordance with the contact conditions on the striking surface, thereby silencing the musical sound by way of the action similar to that of the acoustic cymbal choke that is the action of touching the striking surface.

An electronic hi-hat 1 has a rod movable up and down with an operation of a player. A top cymbal 2 has a striking surface that can be struck by the player. A bottom cymbal 3 comes into contact with or separates from the top cymbal 2. An optical sensor 7 detects separation dimension between the top cymbal 2 and the bottom cymbal 3. The optical sensor 7 detects separation dimensions of a plurality of areas that are displaced with inclinations of the top cymbal 2 and the bottom cymbal 3 with respect to the rod r. The plurality of areas where the separation dimensions are detected are located on a common circumference of the top cymbal 2 and the bottom cymbal 3 around the rod r as a center.

An electric bowed string instrument structure comprises a longitudinally elongated frame (2) having a central recess (8) provided with a bottom (9), a fingerboard (5) anchored to the neck (4), a tailpiece (7) anchored to the rear end portion (6) of the frame (2), a plurality of strings (13) extending between the fingerboard (5) and the tailpiece (7), a bridge (12) adapted to support the strings (13), a pick-up (14) adapted to intercept the vibrations produced by the strings (13) and to be connected to sound amplifying means, a soundboard (11) interlocked in the recess (8) in a transversely offset position with respect to the bottom (9), the soundboard (11) being convex with a convexity facing towards the strings (11), the pick-up (14) being arranged below the soundboard (11).

An electronic percussion instrument and sound production control method thereof are provided. In an electronic cymbal, the output of a musical sound is controlled in accordance with the results of detection from a strike sensor when the strike sensor detects a strike on a striking surface. While the musical sound is output, if a user touches the striking surface, an electrostatic capacitance sensor outputs an output value in accordance with the contact condition so that the musical sound is attenuated in accordance with the output value while being output. Therefore, the user can attenuate the musical sound being output in accordance with the contact conditions on the striking surface, thereby silencing the musical sound by way of the action similar to that of the acoustic cymbal choke that is the action of touching the striking surface.

The disclosure provides an electronic hi-hat and an operating method of the electronic hi-hat that can improve the feeling at the time of hitting. Since an edge portion of a bottom frame is formed in a flat plate shape, the weight of an outer edge portion of the bottom frame can be reduced. As a result, even if a hit top cymbal comes into contact with the bottom frame, the weight of the outer edge portion of the bottom frame is less likely to hinder the swinging (displacement caused by the hit) of the top cymbal. Therefore, the feeling at the time of hitting the top cymbal can be lightened, so that the feeling at the time of hitting can be improved.

A device is provided for capturing vibrations produced by an object such as a musical instrument such as a cymbal of a drum kit. The device comprises a detectable element, such as a ferromagnetic element, such as a metal shim and a sensor spaced apart from and located relative to the musical instrument. The detectable element is located between the sensor and the musical instrument. When the musical instrument vibrates, the sensor remains stationary and the detectable element is vibrated relative to the sensor by the musical instrument.

An electronic hi-hat 1 has a rod movable up and down with an operation of a player. A top cymbal 2 has a striking surface that can be struck by the player. A bottom cymbal 3 comes into contact with or separates from the top cymbal 2. An optical sensor 7 detects separation dimension between the top cymbal 2 and the bottom cymbal 3. The optical sensor 7 detects separation dimensions of a plurality of areas that are displaced with inclinations of the top cymbal 2 and the bottom cymbal 3 with respect to the rod r. The plurality of areas where the separation dimensions are detected are located on a common circumference of the top cymbal 2 and the bottom cymbal 3 around the rod r as a center.

An electronic cajon comprises a box-like base body with a bottom wall, side walls and a cover wall, wherein the playing surface is sub-divided into a plurality of beat effect zones, the beat effect zones each have a beat converting device arranged in a storage compartment formed in the front wall, the beat converting device has a rubber-like impact plate forming the operation surface of each beat effect zone, a mechanical-electrical signal converter mounted on the inner side of the impact plate and a shock absorption inlay arranged between the impact plate and a bottom of the storage compartment around the signal converter, and a sound module assigned to the signal converters is provided, which converts the electrical signals from the signal converters into electrical sound signals and outputs them at an output of the electronic cajon.

A frequency detection and display device includes a body having a vibratory portion configured for vibrating at a predetermined frequency. In this manner, the vibratory portion provides a visible indication corresponding to the predetermined frequency in response to vibration of an object, such as a stringed musical instrument, to which the frequency detection and display device is attached.

An impact detection device includes: a body configured to be struck; a vibration sensor that detects vibration of the body; a support base that supports the vibration sensor; a first elastic body sandwiched between the vibration sensor and the body; and a second elastic body sandwiched between the vibration sensor and the support base. A dimension of each of the first elastic body and the second elastic body is smaller than a dimension of the vibration sensor when viewed from an arrangement direction in which the first elastic body, the vibration sensor, and the second elastic body are arranged.