An open-ear headphone with an acoustic module configured to be located at least in part in a concha of an outer ear of a user. The acoustic module comprises a housing that contains an acoustic transducer. There is a first sound-emitting opening in the housing that is configured to emit sound produced by the acoustic transducer. The acoustic module defines a central longitudinal axis and the first sound-emitting opening is offset from the central axis.

A wireless earbud including an outer housing, an internal assembly, and an inner housing. The outer housing and the inner housing may couple together to form a water tight enclosure for the internal assembly. The internal assembly may include components that carry out a function of the wireless earbud, such as printed circuit boards, network interfaces, batteries, loudspeakers, and so forth. The outer housing may also include a proximity sensor for receiving touch and/or antenna(s) for communicatively coupling the wireless earbud to other electronic devices. Additionally, the inner housing may include a charging module for the wireless earbud.

The embodiments of present disclosure disclose a loudspeaker. The loudspeaker may include an ear hook including a first plug end and a second plug end. The ear hook may be surrounded by a protection sleeve, and the protection sleeve may be made of an elastic waterproof material. The loudspeaker may include an earphone core housing configured to accommodate the earphone core, and the earphone core housing may be fixed to the first plug end through plugging, and may be elastically abutted against the protection sleeve elastically. The loudspeaker may include a circuit housing configured to accommodate a control circuit or a battery. The circuit housing may be fixed to the second plug end through plugging.

A dust screen assembly (100), an electroacoustic assembly (200), a housing assembly (300), and an electronic device (1000). The dust screen assembly (100) comprises: a magnet (1), having a first magnetic field; a coil (2), suitable for generating a second magnetic field; brush heads (3), disposed in the coil (2) and connected to the coil (2); and a dust screen (4), located on one side of the coil (2) distant from the magnet (1). When the direction of the second magnetic field and the direction of the first magnetic field are opposite, the coil (2) moves towards the dust screen (4), and the brush heads (3) are suitable for making contact with the dust screen (4). When the direction of the second magnetic field and the direction of the first magnetic field are same, the coil (2) moves towards the magnet (1).

The inventive subject matter is directed to headset audio systems having resonance chambers designed to improve a system's frequency response in certain ranges. Systems of the inventive subject matter include a casing that both holds a speaker driver and creates two resonance chambers. Each resonance chamber vents to ambient air outside the casing, where the length and cross-sectional areas of each vent can impact the system's frequency response. Each resonance chamber is tuned to a resonant frequency to improve the system's frequency response across a range of frequencies on either side of each chamber's resonant frequency.

An electronic device for playing audio information to a user includes a body and an ear insert. The body has a speaker therein. The ear insert includes an integrated fin and sound director. The fin and sound director are oriented opposite one another at opposite ends of the ear insert in a longitudinal direction. The fin and sound director each project beyond the body in the longitudinal direction. The sound director is in audio communication with the speaker to direct sound from the speaker through and out of the sound director.

An apparatus may include a housing adapted for at least partial insertion into a concha bowl of a human ear, at least one speaker residing in or on the housing, a control system residing in or on the housing and a positioning element attached to the housing. The control system may be configured for controlling the speaker and configured for radio frequency (RF) communication. The positioning element may be configured to fit at least partially inside a concha of the human ear and may be configured to retain the housing at least partially within the concha bowl. The positioning element may include one or more wires Control System configured for communication with the control system. The one or more wires may be configured for at receiving and/or transmitting RF radiation. In some examples, the positioning element may be, or may include, a concha lock. The positioning element may include a loop antenna.

A wireless wearable device, including a housing, a PCB located inside the housing, and an antenna module connected to the PCB. The antenna module is configured to transmit and receive a wireless signal, and includes a first electrode, of which a portion is located at a surface of the housing. The portion of the first electrode keeps in contact with a skin of a user when the wireless wearable device is worn by the user. A total length of the first electrode can be lower a quarter of a wavelength applied in wireless communication. The user does not need to perform an intentional touch or grip due to a constant contact in wearing. A metal housing can be applied without screening transmitted and received signals. Miniaturization of the whole device is achieved while ensuring good quality of wireless communication.

The embodiments of present disclosure disclose a loudspeaker. The loudspeaker may include an ear hook including a first plug end and a second plug end. The ear hook may be surrounded by a protection sleeve, and the protection sleeve may be made of an elastic waterproof material. The loudspeaker may include an earphone core housing configured to accommodate the earphone core, and the earphone core housing may be fixed to the first plug end through plugging, and may be elastically abutted against the protection sleeve elastically. The loudspeaker may include a circuit housing configured to accommodate a control circuit or a battery. The circuit housing may be fixed to the second plug end through plugging.

A head phone structure includes an earmuff casing and a speaker. The earmuff casing includes a first casing and a second casing. A first accommodating space and a first chamber are formed between the first casing and the second casing, and the first chamber is formed outside the first accommodating space. The speaker is disposed in the first accommodating space of the earmuff casing and at least includes a frame and a vibration system. A second chamber is defined and formed by the frame and the vibration system. An airflow is generated in the second chamber when the vibration system vibrates. The second chamber communicates with the first chamber of the earmuff casing.