The present disclosure provides a bone conduction speaker. The bone conduction speaker may include a driving device and a panel. The driving device may be configured to generate a driving force, and the driving force is located in a straight line. The panel may be transmissibly connected to the driving device. The panel may be configured to conduct sound. A region through which the panel interacting with the user's body may have a normal line. The normal line may not be parallel to that straight line.

A cochlear external device with an external microphone according to an embodiment of the present disclosure may include an external device body attached to a side of the head of a user, an internal microphone embedded in the external device body to collect sound, an external microphone located at the outside of the external device body to be attached around the ear of the user to collect sound, a connection cable configured to connect the external microphone and the external device body in a wired manner; and a control unit embedded in the external device body to generate an output signal based on the sound collected by at least one of the internal microphone and the external microphone and transmit the generated output signal to a cochlear implant transplanter.

A stable wearing state on an ear is secured. A speaker that outputs sound; a speaker arrangement portion in which the speaker is arranged therein; and a sound guiding pipe in which one end portion is continuous with the speaker arrangement portion and an internal space is formed as a sound guiding space that leads the sound outputted from the speaker are provided, in which an opening that emits the sound toward an ear is formed at the other end of the sound guiding pipe. The sound output apparatus is worn on the ear by sandwiching the outer peripheral portion of the auricle between the sound guiding pipe and the speaker arrangement portion or by the sound guiding pipe so that a stable wearing state on the ear can be secured.

An ear-wearable device is described that includes a plurality of modules that mate together forming a physical outer shell of the ear-wearable device. Each module from the plurality of modules is associated with a different, corresponding feature of the ear-wearable device and each module from the plurality of modules includes a respective physical portion that comprises a different, corresponding part of the outer shell. In addition, each module from the plurality of modules shares a physical interface with at least one other module from the plurality of modules.

An ear-wearable device is described that includes a plurality of modules that mate together forming a physical outer shell of the ear-wearable device. Each module from the plurality of modules is associated with a different, corresponding feature of the ear-wearable device and each module from the plurality of modules includes a respective physical portion that comprises a different, corresponding part of the outer shell. In addition, each module from the plurality of modules shares a physical interface with at least one other module from the plurality of modules.

A device including a prosthesis configured with a sound capture system and configured to evoke a hearing percept based on a captured sound captured by the sound capture system, wherein at least a portion of the prosthesis is configured to attach to a head of a recipient such that sound is captured by the sound capture system externally of the recipient at a location below an ear canal of a human.

A device including a prosthesis configured with a sound capture system and configured to evoke a hearing percept based on a captured sound captured by the sound capture system, wherein at least a portion of the prosthesis is configured to attach to a head of a recipient such that sound is captured by the sound capture system externally of the recipient at a location below an ear canal of a human.

A hearing device cable including a body portion is described herein. The body portion may extend between a first end region and a second end region along a tube centerline. The body portion may include a first radial portion proximate the first end region and second radial portion proximate the second end region. The first radial portion may define a radius of curvature that is greater than or equal to a radius of curvature defined by the second radial portion. The tube centerline may lie along an x-y plane between the first and second end regions. In one or more embodiments, the body portion may define a passageway extending between the first and second end regions. Further, the hearing device cable may include a superelastic wire within the passageway extending between the first and second end regions.

An on-ear speaker component for a hearing aid device. The on-ear speaker component includes an on-ear speaker housing, a speaker disposed in the on-ear speaker housing, and an electrical connection adapted to attach the speaker to a microphone in a housing different from the on-ear speaker housing.

A listening device is disclosed for positioning in an ear canal of a user to process an environmental sound signal. The device can include an earpiece positionable in the ear canal of the user. A microphone can be positioned on the earpiece for receiving the environmental sound signal when the earpiece is positioned in the user's ear canal. A sound processing unit can be electrically coupled with the microphone, the sound processing unit programmed to produce a processed sound signal by identifying a target sound signature within the environmental sound signal received from the microphone, and modifying the identified target sound signature within the processed sound signal. A speaker can be electrically coupled to the sound processing unit, the speaker configured to project the processed sound signal as audible sound.