Various implementations include loudspeakers and related waveguides. The loudspeakers can include an adjustable waveguide for modifying the coverage pattern of the audio output. In some particular aspects, a loudspeaker includes: a single speaker box with at least one driver; a waveguide having: a pair of opposing walls that are fixed with respect to the at least one driver; and at least one adjustable wall that is adjustable relative to the at least one driver; and at least one fin coupled to the waveguide for accommodating a gap between the pair of opposing walls and the at least one adjustable wall.

The present invention discloses a speaker module, comprising a housing and a speaker unit located in an inner cavity of the housing and dividing the inner cavity into a front acoustic cavity and a rear acoustic cavity separated from each other, wherein the housing is additionally provided with a pressure relief device configured to communicate the rear acoustic cavity with an external environment and implement an acoustic seal, the pressure relief device comprises a pressure relief hole extending through a thickness direction of the housing and provided with a gland on one side close to the rear acoustic cavity, and a pressure relief groove is disposed at a surface of the gland close to the pressure relief hole, one end of the pressure relief groove is connected with the pressure relief hole, the other end of the pressure relief groove is led out of an end of the gland, and the pressure relief groove and the pressure relief hole together make up a pressure relief passage of the rear acoustic cavity. The pressure relief grooves of the pressure relief devices of the speaker modules are arranged on the gland, which makes processing easier and can effectively improve the yield of the speaker module.

An ultrasonic device includes a substrate, a transmitter disposed over the substrate, the transmitter including an ultrasonic transmitting transducer configured to generate ultrasonic signals, and a receiver disposed over the substrate, the receiver including an ultrasonic receiving transducer configured to sense ultrasonic signals. The ultrasonic device further includes a first horn-shaped acoustic channel, wherein a material of at least one portion of the first horn-shaped acoustic channel is the same as a material of at least one portion of the transmitter or the receiver.

Disclosed herein is a 2-way type microspeaker having a drum safety filter (DSF) structure. The 2-way type microspeaker includes a woofer diaphragm, a first coil positioned between a central portion and boundary of the woofer diaphragm, a main magnet disposed inside the first coil, a sub-magnet installed outside the first coil, and a tweeter diaphragm disposed to face the woofer diaphragm. The microspeaker further includes a side support configured to support and surround the sub-magnet, and a first split support configured such that the upper portion thereof supports the rim of the woofer diaphragm and the lower portion thereof comes into contact with the top surface of the side support and also configured such that an open window of a predetermined size is formed such that high-pressure air can flow out.

A microphone assembly comprises a substrate. An acoustic transducer is disposed on the substrate, the acoustic transducer configured to generate an electrical signal responsive to acoustic activity. An integrated circuit is disposed on the substrate and electrically coupled to the acoustic transducer, the integrated circuit configured to generate an output signal indicative of the acoustic activity based on the electrical signal from the acoustic transducer. An enclosure is coupled to the substrate and defines an internal volume between the enclosure and the substrate, the enclosure having an outer surface exposed to an outside environment of the microphone assembly, and an inner surface adjacent the internal volume. An insulating layer is disposed on the inner surface of the enclosure. The insulating layer comprises a fluoropolymer.

Provided is a speaker box, including a housing having receiving space and a sounding unit received in the housing. The housing includes a plastic member and a reinforced rigid body fixed to the plastic member by injection molding. The plastic member includes a bottom wall connected to the reinforced rigid body and a blocking wall connected to the bottom wall. The speaker box further includes a solder terminal electrically connecting the sounding unit to an external circuit. The solder terminal includes a main body portion, first and second electrical connection portions. The plastic member further includes an enclosure extending from the bottom wall away from the reinforced rigid body. The enclosure is separated from the blocking wall by a distance and encloses the main body portion. The enclosure and the reinforced rigid body are bonded by glue. The speaker box has low costs, simple assembly and high assembly stability.

A vehicle seat is provided with a seat pad formed of a foam material defining a seating surface for supporting an occupant and a rear surface opposite the seating surface. A speaker cavity for receiving a speaker assembly is formed in the pad and extends from the rear surface toward the seating surface. At least one speaker retention bracket is disposed in the speaker cavity. The retention bracket is co-molded with the pad so at least a portion of the retention bracket is encapsulated in foam material to retain the bracket in the cavity, the retention bracket having at least one retention feature extending within the cavity to cooperate with the speaker assembly and retain the speaker assembly in the pad. The speaker retention bracket is configured to mount a speaker assembly within the cavity to allow acoustic radiation to be transmitted through the foam material to a seated occupant.

This document describes techniques and systems that enable a range extender device. The techniques and systems include a user device that includes a housing with an audio sensor, a heat sink assembly, a circuit board assembly, and a speaker assembly positioned within the housing. The housing includes a top housing member connected to a bottom housing member. The top housing member includes a concave-down top-end portion connected to a generally-cylindrical vertical wall via rounded corners. The heat sink assembly includes a heat sink and one or more antennas positioned proximate to an inner surface of the vertical wall. The circuit board assembly is positioned within the housing and proximate to the heat sink assembly, and the speaker assembly is positioned within the housing and connected to the circuit board assembly. Also, a light ring assembly is connected to a bottom exterior surface of the bottom housing member.

An image capture device includes a housing that defines a cavity and an aperture positioned within the cavity and an audio device disposed within the housing at a location of the aperture. The image capture device includes stanchions that extend outward from the cavity and a cover coupled to the stanchions. The cover is free of contact with the housing.

A speaker module includes a first cavity body, a second cavity body disposed adjacent to the first cavity body and a vibration module disposed in the first cavity body and including a first diaphragm and a second diaphragm which are horizontally spaced apart. The first cavity body includes a first sub-cavity and a second sub-cavity which are respectively located on two opposite sides of the vibration module, and the second sub-cavity is communicated with the second cavity body.