A speaker of a hearing instrument generates a sound that includes a range of frequencies. Furthermore, a microphone of the hearing instrument measures an acoustic response to the sound. A processing system classifies, based on the acoustic response to the sound, a depth of insertion of an in-ear assembly of the hearing instrument into an ear canal of a user. Additionally, the processing system generates an indication based on the depth of insertion of the in-ear assembly of the hearing instrument into the ear canal of the user.

A hearing device, in particular an in-the-ear hearing device, has a housing shell which encloses an electronics chamber like a cup. A cover plate is connected to the housing shell to terminate the electronics chamber. An electronics frame protrudes from the cover plate into the electronics chamber and by which an electric and/or an electronic component of the hearing device is reversibly mounted at least in directions parallel to the cover plate. At least one frame lock is reversibly coupled to the electronics frame, by which the electrical and/or electronic component is fixed on the electronics frame in a direction perpendicular to the cover plate.

A hearing device includes a sound path component having: a chamber at a first end of the hearing device; a vent channel extending from the chamber to a second end of the hearing device, the vent channel having a first vent end at the chamber and a second vent end; an output transducer opening configured to couple to an output transducer; a first opening at the chamber and being configured to face towards an ear canal of the user; and a second opening at the second end of the hearing device and being configured to face towards a surrounding, the second opening being at the second vent end of the vent channel; and an input transducer opening configured to couple to a first input transducer; the vent channel, the input transducer opening, the output transducer opening, the first opening and the second opening being in fluid connection with each another.

An exemplary hearing system that is configured to assist a user in hearing includes an in-the-ear (ITE) component configured to fit at least partially within an ear canal of the user while the hearing system is worn by the user, a first sensor electrode provided on a surface of the ITE component and configured to contact, while the hearing system is worn by the user, outer ear tissue of the user, and a second sensor electrode configured to be located, while the hearing system is worn by the user, at an entrance to or outside of the ear canal of the user. The first sensor electrode and the second sensor electrode may be configured to be used to detect a physiological attribute of the user while the hearing system is worn by the user. Corresponding methods and systems are also disclosed.

A ready-made device attachable to an outer ear achieving excellent feeling of attachment and high stability is provided. The device attachable to an outer ear according to this invention includes an inserting part of a tubular shape to be inserted into an external auditory canal and a setting part to be set in a cavity of concha, and the inserting part and the setting part are disposed on an imaginary spherical surface, and the inserting part is rotatable around a longitudinal axis thereof inside the external auditory canal. Since the setting part is arranged on the same imaginary spherical surface as the inserting part, the setting part is disposed along an inner wall of a cavity of concha in a state where the inserting part is inside the external auditory canal.

A sound processor comprises one or more electrical signal outputs configured to generate a plurality of electrical signals. The plurality of electrical signals are generated in specific tuned audio frequency bands in respective audio channels, in response to sound information received at the sound processor in the specific tuned audio frequency bands. The sound processor further comprises a transmitter coupled to the one or more electrical signal outputs for transmission of the plurality of electrical signals. The transmitter is configured to transmit the electrical signal in the respective audio channel over a separate respective transcutaneous communication link.

A hearing device, e.g. a hearing aid, configured to be worn by a user, comprises a) two or more input transducers (e.g. microphones) wherein said two or more input transducers during use of the hearing device are arranged with a distance between them; b) a directional system comprising a directional algorithm configured to provide a directional pattern in dependence of said distance. The hearing device is configured to estimate a current value of said distance, or an equivalent acoustic delay, or beamformer weights of said directional system, thereby the directional performance can be optimized to the individual user.

A hearing aid assembly includes a receiver speaker enclosed within a receiver housing. The receiver housing defines a circuitous receiver acoustic channel, wherein the receiver channel defines an open side along at least a portion of the receiver channel. The receiver channel also defines a pass-through passage extending from a first side of the receiver housing to a second side of the receiver housing, wherein the pass-through passage is partially defined by the wall defining a receiver opening. The hearing aid assembly also includes an earbud configured to fit over at least a portion of the receiver housing and partially cover the open side of the receiver channel.

A hearing system contains a hearing instrument and the hearing instrument is configured to support the hearing of a hearing-impaired user. The hearing instrument is operated via an operating method. The method includes capturing a sound signal from an environment of the hearing instrument, processing the captured sound signal to at least partially compensate the hearing-impairment of the user and outputting the processed sound signal to the user. The captured sound signal is analyzed to recognize speech intervals, in which the captured sound signal contains speech. During recognized speech intervals, at least one time derivative of an amplitude and/or a pitch of the captured sound signal is determined. The amplitude of the processed sound signal is temporarily increased, if the at least one derivative fulfills a predefined criterion.

A hearing aid system comprises a hearing aid, and a portable auxiliary device' adapted to establish a communication link between them. The hearing aid comprises a microphone providing an electric input signal, a signal processor, and an output unit. The auxiliary device comprises a microphone providing an auxiliary electric input signal, and a user control interface allowing a user to initiate a specific calibration mode of operation of the hearing aid system. The signal processor of the hearing aid is configured to receive corresponding time segments of said electric input signal and said auxiliary electric input signal to provide an estimate of an acoustic transfer function from said microphone of said auxiliary device to said microphone of said hearing aid. A method of operating a hearing aid system is further disclosed. The invention may e.g. be used in various applications related to own voice detection and estimation.