A micro-speaker is provided. The micro-speaker includes a vibration unit; and a fixed unit. The vibration unit includes: a diaphragm; a voice coil located below the diaphragm and configured to drive the diaphragm to vibrate and emit sound; and a flexible circuit board connecting the diaphragm with the voice coil. The diaphragm includes a dome in its middle and a voice membrane extending from an edge of the dome. The flexible circuit board is supported at a side of the voice membrane close to the voice coil. The flexible circuit board comprises a first fixed portion facing away from the dome and a second fixed portion formed into one piece with the dome. The first fixed portion is fixed to the fixed unit and fixed at a side of the voice membrane facing away from the dome.

An electronic device housing may include a display cover layer that overlaps an array of pixels. The cover layer or other portion of the housing may have an opening that forms an optical and audio port. Optical and audio components may be coupled to the port. A port cover may cover some or all of the port. The port cover may include one or more layers of mesh or other materials that allow light and sound to pass while blocking environmental contaminants. The optical components may include an ambient light sensor or other devices that receive light and/or may include devices that emit light. The audio components may include a microphone and/or a speaker. The optical component may emit or receive light that passes through the audio component. A structure in the interior of the housing may form a passageway coupled to the port through which sound and light passes.

A speaker, including: a magnetic circuit system, a vibration system, and a speaker support, the speaker support is provided with a mounting cavity, both the magnetic circuit system and the vibration system are mounted in the mounting cavity; the vibration system includes a metal diaphragm and a flexible connector; the metal diaphragm is placed in the mounting cavity; an inner periphery of the flexible connector is bonded to an outer periphery of the metal diaphragm, and an outer periphery of the flexible connector is bonded to an inner periphery of the speaker support. The overall rigidity of the vibration system of the speaker can be improved via adopting the metal diaphragm, and the overall performance of the speaker is improved.

A speaker includes an outer frame defining a hollow interior space. The speaker includes a distributed mode loudspeaker (DML) member disposed along a front face of the outer frame and an elastic seal that is disposed around a perimeter of the DML member and being disposed between and coupled to the DML member and the outer frame. The elasticity of the elastic seal permits the DML member to move (e.g., vibrate). A passive diaphragm is disposed along a rear face of the outer frame such that an air cavity is formed between the DML member and the passive diaphragm. An electro-acoustic exciter is provided for exciting resonant modes in the DML member. The DML member is thus coupled to the passive diaphragm by air contained within the air cavity resulting in movement of the passive diaphragm due to air movement within the cavity as a result of the excitation of the DML member.

A speaker of the present invention arranges the grooves on the dome, which forms a leakage passage that helpful for the air current to circulate between the grooves and the voice coil, and therefore, the air current in the voice coil can timely circulate through the leakage passage between the voice coil and the dome. The inner and outer air pressure difference of the voice coil can be effectively decreased after the amplitude of the vibrating system increases, and the influence on the performance of the speaker imposed by the unbalance of the inner and outer air pressures of the voice coil is avoided.

A diaphragm and suspension for an electroacoustic transducer are formed by depositing a layer of compliant material on a first surface of a solid substrate and removing material from a second surface of the solid substrate. The removal leaves a block of substrate material suspended within an inner perimeter of an outer support ring of the substrate material by the compliant material, the block providing the diaphragm.

A sound generator includes a frame, a magnetic circuit system and a vibration system accommodated in the frame. The vibration system includes a suspension. The suspension includes a first part and a second part attached to the first part. The first part includes a first middle portion, a first edge portion, and a first positioning portion. The second part includes a second middle portion, a second edge portion, and a second positioning portion. The second positioning portion is stacked on the first positioning portion, and is assembled with the first positioning portion by adhesive. The first edge portion is convex toward the frame, and the second edge portion is convex away from the frame, by which a sealed cavity is formed between the first and second edge portions. By virtue of such a configuration, the strength of the vibration system is improved.

An adhering portion of an electroacoustic sound generator provided by the present disclosure, for engaging a front cover and a diaphragm, includes a thickened layer for coupling with the diaphragm, which effectively avoid the glue from overflowing. The hardness of the front cover is 150200 HV, which makes it easier to manufacture the thickened layer.

An electrodynamic acoustic transducer is disclosed, which comprises at least one coil with a coil wire being wound around a loop axis and a magnet system being designed to generate a magnetic field transverse to a longitudinal extension of the coil wire and transverse to the loop axis. Furthermore, the electrodynamic acoustic transducer comprises a membrane, which is fixed to the at least one coil and to the magnet system or to a frame/housing of the electrodynamic acoustic transducer. In addition, the electrodynamic acoustic transducer comprises a suspension system, which is fixed to the at least one coil and to the magnet system or to said frame/housing. In detail, the suspension system is fixed to the at least one coil in a region of a side wall of the at least one coil, which is oriented parallel to the loop axis.

A novel diaphragm assembly, transducer and manufacturing method is here in proposed making use of a diaphragm assembly including a diaphragm having a first diaphragm component and a second diaphragm component. Both diaphragm components extend between respective inner perimeter and outer rim. The outer rim of the first diaphragm component overlaps with and is attached to the second diaphragm component at an overlap section. A voice coil assembly is connected to the inner perimeter of the second diaphragm component.