An apparatus, system, and method for an electronic handheld musical instrument that generates electronic signals for processing by a processor-based module to generate musical sounds adapted to replicate non-electronic traditional hand percussion and other handheld instruments, is provided. A piezoe
An apparatus, system, and method for an electronic handheld musical instrument that generates electronic signals for processing by a processor-based module to generate musical sounds adapted to replicate non-electronic traditional hand percussion and other handheld instruments, is provided. A piezoelectric-based trigger is secured in an enclosed volume or enclosure formed in the electronic handheld musical instrument. When manipulated by a musician in a normal fashion, freely moving beads float or travel within the enclosure of the electronic handheld musical instrument and strike against a sensitive face of the piezoelectric transducer device to create a desired sound effect.
대표청구항▼
1. An electronic handheld musical instrument comprising: a housing having a first enclosed space;a trigger device disposed at least in part in the first enclosed space;a set of freely movable elements contained within the first enclosed space and adapted to contact a surface of the trigger device th
1. An electronic handheld musical instrument comprising: a housing having a first enclosed space;a trigger device disposed at least in part in the first enclosed space;a set of freely movable elements contained within the first enclosed space and adapted to contact a surface of the trigger device thereby causing the trigger device to generate a trigger signal based on a detected vibration;wherein the trigger signal is transmitted to a separate module, the separate module adapted to generate output signals based on the trigger signal; andwherein the output signals represent one of a sound output, desired sound effect, lighting effect, audio output, or switching signal. 2. The electronic handheld musical instrument of claim 1, wherein the trigger device is a piezoelectric transducer. 3. The electronic handheld musical instrument of claim 1, further comprising: a wireless device for wirelessly transmitting the trigger signal;an on-off switch for selectively transitioning the handheld musical instrument from an active and inactive state and for allowing the flow of electrical current and the generation of trigger signal; andindicators for indicating the status of the device including a mode of operation. 4. The electronic handheld musical instrument of claim 1, wherein the set of freely movable elements comprise a set of plastic beads, a set of metal beads, a ball, or a set of granular material. 5. The electronic handheld musical instrument of claim 1, wherein the housing further comprises a movable portion adapted to provide access to the interior of the first enclosed space for placing or removing the set of freely movable elements. 6. The electronic handheld musical instrument of claim 1, wherein the housing further comprises a second enclosed space and a second trigger device. 7. The electronic handheld musical instrument of claim 1, further comprising one or more of a sensitivity element for user selection of sensitivity setting, a battery power source, and a battery level indicator. 8. The electronic handheld musical instrument of claim 7, wherein the housing further comprises a battery enclosure space for receiving the battery power source. 9. The electronic handheld musical instrument of claim 1, wherein the housing further comprises a wireless device enclosed space for receiving a wireless transmitting device. 10. The electronic handheld musical instrument of claim 1, further comprising a channel selector switch adapted to selectively place the handheld musical instrument in operation over a given channel or frequency. 11. The electronic handheld musical instrument of claim 1, further comprising: an audio mixer;an antenna for transmitting the trigger signal;a band pass filter section;a signal detector;a local oscillator;an XLR audio output; anda ¼ inch unbalanced audio output. 12. The electronic handheld musical instrument of claim 3, wherein the separate module further comprises an FM long range receiver for receiving the wirelessly transmitted trigger signal, and wherein the separate module is further adapted to generate an intermediate signal for delivery to a sound module. 13. The electronic handheld musical instrument of claim 1, further comprising an amplifier for amplifying a sound associated with the trigger signal. 14. The electronic handheld musical instrument of claim 1, further comprising: an opening adapted to provide access to the first enclosed space, the opening further adapted to receive an object for striking against the surface of the trigger device; andan opening cover adapted to close the first enclosed space. 15. The electronic handheld musical instrument of claim 1, further comprising: an accelerometer adapted to observe movement of the electronic handheld musical instrument along X, Y, and Z axes and output a movement signal based on the observed movement;a sound bank microchip adapted to receive the movement signal from the accelerometer and store the movement signal in a memory;a radio frequency wireless transmitter adapted to transmit one or both of the stored movement signal and the trigger signal to the separate module; andwherein the generated signals are based on one or both of the movement signal and the trigger signal. 16. The electronic handheld musical instrument of claim 1, further comprising a Bluetooth module adapted to receive a set of configuration information for the electronic handheld musical instrument, the set of configuration information having been transmitted by a mobile device, and the configuration information defining a set of operating parameters for the electronic handheld musical instrument. 17. A method for generating electronic signals from an electronic handheld musical instrument for processing by a module to produce sounds adapted to replicate non-electronic traditional handheld instruments, the method comprising: actuating a trigger device disposed within the electronic handheld musical instrument by manipulating the electronic handheld musical instrument, the manipulation causing a set of freely movable elements disposed within the handheld musical instrument to contact a surface of the trigger device thereby causing the trigger device to generate a trigger signal based on a detected vibration;transmitting the trigger signal to a separate module; andgenerating, by the separate module, output signals based on the trigger signal, the output signals representing one of a sound output, desired sound effect, lighting effect, audio output, or switching signal. 18. The method of claim 17, wherein the trigger device comprises a piezoelectric transducer, and wherein the movable elements are one from the group consisting of a set of plastic beads; a set of metal beads; a ball; and a set of granular material. 19. The method of claim 17, further comprising: measuring by an accelerometer movement of the electronic handheld musical instrument along X, Y, and Z axes;outputting by the accelerometer the measured movement as a movement signal;receiving and storing by a sound bank microchip the movement signal from the accelerometer; andtransmitting by a radio frequency wireless transmitter the stored movement signal and the trigger signal to the separate module, and wherein the generated signals are based on the movement signal and the trigger signal. 20. The method of claim 17, further comprising amplifying a sound associated with the trigger signal via an amplifier disposed within the electronic handheld musical instrument.
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이 특허에 인용된 특허 (133)
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