Seamless earbud structures and methods for making the same are disclosed. Seamless earbud structures can be constructed using an insert molding construction method, which overmolds a cosmetic material over two sub-enclosures that are mated together. The two sub-enclosures form a housing that can encompass a driver assembly (e.g., woofer and tweeter), a conductor bundle, and provide one or more acoustic volumes. The housing has a non-occluding member and a neck member, and has a seamless or nearly seamless construction. The cosmetic material is insert molded around the housing to provide a smooth and seamless surface disposed around the periphery of the housing.

A personal acoustic system and flexible mount for the same are disclosed. The flexible mount is comprised of an elastomeric material. The personal acoustic system further includes a band comprising a first mount and an earpiece comprising a second mount. An acoustic element is housed within the earpiece. The elastomeric mount is positioned intermediate the first mount and the second mount to flexibly connect the band to the earpiece.

The present invention provides a microphone mounting structure for a headset, the microphone mounting structure comprising: a housing surrounding the headset and forming an audio output channel along a vertical direction inside; a microphone mounted along the vertical direction inside a space formed by the audio output channel, and a substrate connected to a main board and including a supporting part mounted in a rear side of the microphone, wherein the microphone includes a circuit substrate formed in a rear side of the microphone, and the circuit substrate includes a hole, wherein the supporting part includes a substrate hole communicating the hole.

A method and system for sizing an earpiece include situating a calibration device proximate a user's ear. The user holds an image capture device so as to aim the image capture device at the user's ear. The user then touches and holds a random area of the touch screen display and releases the touch screen display to activate the image capture device and capture an image of the user's ear and the calibration device. The captured image is then analyzed and an earpiece size is determined based on the analysis of the image.

A wearable acoustic device with a microphone is provided. The wearable acoustic device includes a first housing forming a first acoustic emission path, a second housing combined with the first housing in a first direction that is substantially parallel to the first acoustic emission path, an acoustic component part arranged within the second housing and emitting sound through the first acoustic emission path, and at least one microphone arranged adjacent to the first acoustic emission path within the first housing.

An in-ear hearing device having an ear interfacing portion integrally formed with an elongated stem portion, wherein the ear interfacing portion extends away from the elongated stem portion; a first acoustic port formed in the ear interfacing portion; a speaker disposed in the ear interfacing portion and aligned to emit sound from the acoustic port; a plurality of electrical contacts disposed at an end of the stem portion, the plurality of electrical contacts including first and second contacts; a second acoustic port formed at the end of the elongated stem portion between the first and second contacts; a microphone disposed in the stem portion; and a channel that fluidically couples the microphone to the second acoustic port.

The present invention is directed to a headphone device including zones to separate different frequency ranges for enhancing and improving sound quality. The headphone device includes more than one cavities and second auxiliary holes. The second auxiliary holes are configured for most bass or low-frequency to enter a second cavity through the second auxiliary holes and to have a better frequency division effect and to improve the audio quality of the headphone device.

A headphone suspension system includes a headband assembly, a first earcup and a first suspension assembly elastically coupling the first earcup to a first end of the headband assembly. The headphone suspension system further includes a second earcup and a second suspension assembly elastically coupling the second earcup to a second end of the headband assembly.

An earphone includes: a housing; a dynamic driver unit provided in the housing; and a sound conduit having a length of approximately 10 mm or more, the sound conduit being configured to transmit sound output from the dynamic driver unit.

An ear plug having a pressure-adjusting compartment and a formation method. The ear plug is mounted on an earphone so as to be placed into a human auditory canal. The ear plug employs a first formation step for forming an outer main body, the ear plug further employs a second formation step for forming an inner main body, such that the inner main body has formed thereon a mounting portion and an umbrella portion having at least one second air conducting hole, and the ear plug further employs an integration step to make at least one pressure-adjusting compartment between the mounting portion, the audio out portion, the umbrella portion and the outer wall portion, which is respectively and mutually communicated with the first air conducting hole and the second air conducting hole, thereby balancing air pressures in the human auditory canal and outside the earphone via the pressure-adjusting compartment.