According to some aspects, a cymbal system is provided, comprising a cymbal, and a vibrational transducer magnetically coupled to the cymbal, the magnetic coupling provided by at least one magnetic component on an upper side of the cymbal and at least one magnetic component on a lower side of the cymbal. According to some aspects, a method for transducing vibrations of a cymbal is provided, comprising magnetically coupling a vibrational transducer to a cymbal, the magnetic coupling provided by at least one magnetic component on an upper side of the cymbal and at least one magnetic component on a lower side of the cymbal.

According to some aspects, a cymbal system is provided comprising a metal plate, a transducer coupled to the metal plate and configured to detect an acoustic signal generated by a strike of the metal plate, and processing circuitry, electrically connected to the transducer, configured to determine a cymbal articulation for the strike of the metal plate based on the detected acoustic signal. According to some aspects, a method is provided comprising the steps of detecting an acoustic signal generated by a strike of a metal plate, and determining a cymbal articulation for the strike of the metal plate based on the detected acoustic signal.

The present invention relates to percussion instruments. In particular, it relates to a signal processor for detecting characteristics of vibration of a percussion pad due to a particular strike on the pad. It provides a musician more opportunity for creativity in the sound a listener a percussion instrument can hear. It provides a signal processor for a percussion instrument. The signal processor comprises a singular input signal acquiring means to acquire a singular input signal corresponding to a physical vibration of a percussion surface over time, a signal analyser to analyse the input signal for a characteristic of a strike on the surface which caused the vibration, and a command signal providing means to provide a command signal according to the characteristic.

According to some aspects, a cymbal system is provided, comprising a cymbal, and a vibrational transducer magnetically coupled to the cymbal, the magnetic coupling provided by at least one magnetic component on an upper side of the cymbal and at least one magnetic component on a lower side of the cymbal. According to some aspects, a method for transducing vibrations of a cymbal is provided, comprising magnetically coupling a vibrational transducer to a cymbal, the magnetic coupling provided by at least one magnetic component on an upper side of the cymbal and at least one magnetic component on a lower side of the cymbal.

The disclosed electronic percussion instrument includes a plate-like pad that has a front surface to be struck, a sheet-like pressure sensor that is provided on a back surface of an outer circumferential end portion of the pad and that detects a pressure change, and a weight portion that contacts a front surface of the pressure sensor, wherein, due to striking on the front surface of the pad, an inertial force from the front surface of the pressure sensor toward a back surface of the pad acts on the weight portion, and the weight portion presses the pressure sensor.

An apparatus for making music includes a cymbal, an acoustic transducer, a signal-processing system that receives a first signal from the acoustic transducer and that generates a second signal based on a property of the first signal, and a classifier that determines a particular manner in which the cymbal was struck based on the second signal, and provides an output trigger signal for triggering production of a sound that consistent with the particular manner.

An electronic percussion instrument has a body with a hitting surface that a player can hit. Piezoelectric elements are mounted on respective mounting surfaces Sa formed in the body and are configured to convert vibration generated by a hit on the hitting surface to an electrical signal. The signals have higher output characteristics in vibration in a direction perpendicular to the mounting surfaces than in vibration in a direction parallel to the mounting surfaces. The electronic percussion instrument outputs the electrical signal generated by the piezoelectric elements. The mounting surfaces are inclined from a horizontal plane to a vertical direction toward a center of the body. The piezoelectric elements are mounted on a concentric circle at regular intervals about a central axis of the body.

Provided are an electronic cymbal and a case attachment method with which even when a case is attached to a frame, the distribution of hit sensitivity against a hit on the frame is uniform. In this electronic cymbal (1), the case (8) is attached to the frame (4) by fitting an outer peripheral hooking section (8b) of a case (8) into an outer peripheral support section (4b) of a frame (4), and fitting an inner peripheral enclosing section (8d) of the case (8) into the inner peripheral side of the frame (4). These components can be mounted without forming a screw hole in the frame (4) and screwing the case (8) and the frame (4). Thus, it is possible to suppress the stress concentration on a specific position of the frame (4) due to the screwing, and to uniformize the distribution of the hit sensitivity on the frame (4).

This disclosure relates generally to electronic musical instruments, systems, and methods. More particularly, this disclosure relates to electronic percussion instruments such as tom toms, snare drums, bass drums, cymbals, and hi-hats, and assemblies of instruments (e.g., percussion instruments), such as drum sets. Even more particularly, this disclosure relates to wireless electronic percussion instruments, and percussion instruments with interchangeable and/or removable components to change the instrument between a traditional percussion instrument (that relies on resonance and/or vibration to produce sound) and an electronic percussion instrument. The present disclosure also relates to electronic cymbal instruments, such as cymbal assemblies and hi-hat assemblies, that can be used in conjunction with a traditional acoustic metal cymbal.

An electronic percussion instrument has a plurality of hit positions, and a sound source part 10 that includes: a hit position identification part 12 identifying one of the hit positions which has been hit, based on a detection signal output from a hit detection part; a threshold value setting part 13 sets a threshold value according to the hit position identified by the hit position identification part 12; and a musical sound production part 14 produces and outputs a predetermined musical sound based on a detection signal that has exceeded the threshold value set by the threshold value setting part 13. The threshold value set by the threshold value setting part 13 forms a gradual decrease line that gradually decreases with a lapse of time, and the gradual decrease line is set individually for the hit position identified by the hit position identification part 12.