In some implementations, an actuator can include a magnetic cup comprising a base and sidewalls defining a cavity, the base comprising a planar outer surface opposite the cavity, an edge of the outer surface comprising one or more joint elements; a magnet arranged in the cavity of the magnetic cup; a voice coil arranged in an air gap separating the sidewalls and the magnet; a support comprising one or more magnetic suspension members each comprising an edge shaped to fit to a corresponding one of the joint elements and having a first side that is a) flush with the planar outer surface or b) displaced from the planar outer surface along a first axis perpendicular to the planar outer surface in a direction toward the cavity of the magnetic cup; and a coupling plate attached to the voice coil and the support.

The present disclosure provides an acoustic device, including a frame and a vibration system and a magnetic circuit system respectively fixed to the frame. The vibration system includes an FPC configured to support and fix the voice coil, where the FPC includes a first fixing arm and a second fixing arm arranged at an interval and an elastic arm configured to connect the first fixing arm and the second fixing arm; and the magnetic circuit system includes a magnetic yoke fixed to the frame, a magnet fixed to the magnetic yoke, and a magnetic frame flange that is bent and extends from a periphery of the magnetic yoke, and the magnetic frame flange is inserted in a gap between the voice coil and the elastic arm. Compared with the related art, the acoustic performance of the acoustic device of the present disclosure is optimal.

A speaker includes a shell, a magnetic circuit unit, and a vibration unit. The magnetic circuit unit includes a yoke and a magnet. The yoke includes a bottom wall connected to the magnet. The bottom wall includes an upper surface close to the vibration unit, and a lower surface opposite to the upper surface. A first groove and a second groove that are spaced apart from each other are formed on the upper surface by recessing towards the lower surface. An orthographic projection of the magnet on the upper surface along a vibrating direction of the vibration unit completely covers the first groove. The second groove is arranged outside the orthographic projection. The magnet and the bottom wall are glued and connected by a glue. The glue is received in the first groove. In the speaker, the magnet is firmly connected and is unlikely to be detached.

A speaker, having a firmer structure, includes a metal holder, a magnetic circuit unit including a first diaphragm, and a vibration unit including a clamp plate. The clamp plate includes long-axis edges and short-axis edges. The holder includes long edges, short edges, and corner portions. The short edge includes a first surface facing away from the first diaphragm. The short-axis edge abuts against the first surface. The short-axis edge includes a second surface facing the short edge. The corner portion includes a third surface facing away from the first diaphragm. The holder further includes a protrusion extending from the first surface in a direction facing away from the first diaphragm. The clamp plate further includes an avoiding portion formed by recessing from the second surface in a direction facing away from the short edge. The protrusion is received in and connected to the avoiding portion.

An apparatus includes a surface arranged to be mechanically displaced, a first magnet coupled with the surface, at least one supporting member for supporting the surface, a base comprising a second magnet, wherein the second magnet is arranged, at least partially, to face the first magnet, a coil coupled with the second magnet, and a signal port electrically coupled with the coil. An electrical signal is configured to travel between the signal port and the coil, and the electrical signal in the coil is proportional to mechanic displacement of the surface when a force equilibrium state of the surface is broken either by the electrical signal in the coil or the mechanic displacement of the surface from a position of the force equilibrium state.

The present disclosure provides a speaker, including a frame, a magnetic circuit system and a vibration system accommodated in the frame; the frame includes a main body defining an accommodating space and a mounting portion extending from the main body toward the vibrating diaphragm; the vibrating diaphragm is fixed at the mounting portion; the main body and the mounting portion are integrally formed through double-shot molding by using two kinds of plastics, where the main body is made of PPA, and the mounting portion is made of LCP. According to the speaker provided in the present disclosure, a glued surface between the vibrating diaphragm and the mounting portion has good flatness, which helps to improve waterproof performance and performance yield of the speaker, and firmness of gluing the magnetic circuit system with the main body is high, which helps to improve reliability of the product when the product falls.

Provided is a multi-input-driving loudspeaker, including a frame, a cone arranged on the frame, and a plurality of input driving mechanisms, wherein each of the input driving mechanism includes a voice coil and a magnetic circuit assembly for driving the voice coil to vibrate; the frame is provided with a plurality of magnetic circuit mounting holes, and at most one magnetic circuit assembly is arranged at each magnetic circuit mounting hole, the cone is provided with a plurality of voice coil mounting holes, and at most one voice coil is provided at each voice coil mounting hole; the loudspeaker further includes a damper, the damper is opened with a plurality of voice coil holes, and each of the voice coils pass trough a corresponding voice hole and is closely fitted with the damper.

A speaker includes: a vibrating body including a diaphragm and an edge; a coil directly or indirectly attached to the diaphragm; a pair of lead wires electrically connected to the coil; a yoke; a frame which supports the diaphragm via the edge and in which a magnetic circuit is housed; and an inner terminal to which the lead wire is connected. A passage through which the lead wire passes is disposed between the coil and the inner terminal.

Provided is a tweeter unit having an improved sound diaphragm and an integral support frame incorporating a sound diaphragm and a magnet as well as integrating an upper washer and a ring packing. The tweeter unit includes: a base frame; an improved integral support frame, including an upper clamp groove and a lower clamp groove, assembled at the base frame; at least one magnet, assembled in the lower clamp groove; an improved sound diaphragm, assembled in the upper clamp groove; and a sleeve frame, including a plurality of openings and a sleeve portion, and sleeved outside the base frame, the support frame, the at least one magnet and the improved sound diaphragm. The improved sound diaphragm includes a thin film layer and a circuit thin film layer, and the circuit thin film layer is fixed on one side of the thin film layer through an electrolytic bonding layer.

A transducer system, comprising an electrodynamic acoustic transducer (1) with a membrane (3), a plurality of voice coils (7, 8) electrically switched in series, and a magnet system (9, 10, 11) is presented, wherein just an outer tap/terminal (T2) of the serially connected voice coils (7, 8) is electrically connected to an audio output of an amplifier (17). Moreover, a method for feeding a sound signal to an electrodynamic acoustic transducer (1) is presented, wherein the voice coils (7, 8) are driven by an audio signal just via an outer tap/terminal (T2) of the serially connected voice coils (7, 8).