A power system on an electric guitar may include a cover plate covering a cavity in the electric guitar. A rechargeable power source may be contained within the cavity which may include circuitry. Other instruments or configurations may be used.

A power system on an electric guitar may include a cover plate covering a cavity in the electric guitar. A rechargeable power source may be contained within the cavity which may include circuitry. Other instruments or configurations may be used.

A musical instrument system includes a sound element medium including a plurality of sound-element information areas each having sound element information on a sound element, a reader configured to read the sound element information, a generator configured to generate musical sound information based on the read sound element information, and an audio unit configured to produce a sound based on the generated musical sound information, each of the sound-element information areas having a display corresponding to the sound element information, and the sound element information relating to both or one of pitch and tone.

An electronic musical instrument includes at least one function operator associated with at least one process, and at least one processor, wherein the at least one processor executes the followings, deciding that musical performance is being performed or not in response to an operation to the at least one function operator, in response to deciding that the musical performance is being performed, executing the at least one process associated with the at least one function operator, and in response to deciding that the musical performance is not being performed, not executing the process associated with the at least one function operator, despite being operated to the at least one function operator.

Systems and methods for onboard, real-time pickup blending for electric guitars/basses may utilize every possible tonal combination that double coil pickups can offer. The industry standard pickup toggle switch may be removed from electric guitar/bass instruments. Instead of a user being limited to only using one pickup at a time to be selected, the user may mix in any combination of the pickups (top, bottom, or both) at any time. Accordingly, multiple pickups can be on at the same time and/or the user may blend in (or out) any percentage of any of the pickups that the user wishes to create a large combination of tones.

A setting device includes an operating element and a light-emitting device. The operating element is used for specifying a setting value of a first parameter by moving the operating element within a first region. The light-emitting device includes a second region that is disposed inside the first region. The second region includes a light-emitting area that changes according to the setting value. The operating element covers part of the second region. The operating element is an operating element for specifying a setting value of a first parameter related to sound by moving the operating element relative to a housing. The operating element includes a first portion and a second portion. The first portion blocks light. The second portion transmits light from a first surface of the operating element to a second surface facing the first surface.

A setting device includes an operating element and a light-emitting device. The operating element is used for specifying a setting value of a first parameter by moving the operating element within a first region. The light-emitting device includes a second region that is disposed inside the first region. The second region includes a light-emitting area that changes according to the setting value. The operating element covers part of the second region. The operating element is an operating element for specifying a setting value of a first parameter related to sound by moving the operating element relative to a housing. The operating element includes a first portion and a second portion. The first portion blocks light. The second portion transmits light from a first surface of the operating element to a second surface facing the first surface.

Methods, Apparatus, and a System (collectively a “platform”) for facilitating, enabling, or enhancing creation, control, and playback of digital audio loops or parts are disclosed herein. The platform may include playing back midi song segments. The midi song segments may comprise a midi sequence that is looped a predetermined number of times. The platform may include transitioning to another midi song segment automatically after predetermined number of loops or transitioning in response to a command. The platform may include changing the number of loops during playback of a song segment in response to a command. The platform may relate to enabling automatic generation of song segments during a performance. The platform may include automatically selecting midi sequences to enhance playback. The platform may include other features pertaining to enhancing or enabling digital music creation or composition.

A sensing system for a keyboard. Each key sensor comprises passive and active resonant circuits. The passive resonant circuit has a resonant frequency and the active resonant circuit excites the passive resonant circuit at the resonant frequency. A sensor driver drives the active resonant circuit with an RF drive signal, a multiplexing system multiplexes the drive signal such that simultaneously driven key sensors are separated by at least (k-1) keys, and a detector detects a level of RF signal from a driven key sensor for sensing a position and/or velocity of a key.

Embodiments of systems and methods for blending multi-channel signals are described. In one embodiment, a method for blending multi-channel signals involves computing component signals from the multi-channel signals, cross-fading the component signals based on different temporal rates to generate cross-faded component signals and generating a blended multi-channel signal based on the cross-faded component signals. Other embodiments are also described.