A magnetic circuit assembly may be used in a loudspeaker. The magnetic circuit may include a magnet that has a central axis. The magnet can have a first surface and a second surface that is opposite the first surface. The magnet may produce magnetic field axially through the first and second surfaces of the magnet. The second surface of the magnet may have an inner radial region and an outer radial region. The magnetic circuit assembly can further include a yoke that is disposed adjacent the first surface of the magnet. The yoke can be shaped to form a first gap radially between the yoke and the magnet. The magnetic circuit assembly may further include first and second plates disposed adjacent the second surface of the magnet.

Provided is an electronic device. The electronic device may include: a housing including a front plate, a rear plate facing away from the front plate, and a side member surrounding a first space between the front plate and the rear plate; a display panel exposed to an exterior of the electronic device through the front plate and configured to detect a pen input using a magnetic field; a speaker structure disposed between the display panel and the rear plate, and including a first surface facing the display panel, a second surface facing in a direction opposite the display panel, a side surface surrounding a second space between the first surface and the second surface, and a yoke facing the first surface; and a first shield structure made of a ferromagnetic material and disposed on the first surface.

Disclosed is a magnetic field shielding apparatus including an energy transmitter configured to generate a magnetic field, an energy receiver configured to receive the magnetic field generated by the energy transmitter, and a magnetic shield configured to shield a leaked magnetic field that is not received by the energy receiver, the magnetic shield including at least one closed region through which the leaked magnetic field passes, and at least one open region including a protrusion through which the leaked magnetic field moves to an inside of the magnetic field shielding apparatus after absorbed into the closed region.

In at least one embodiment, a tactile transducer including a housing, a first voice coil and a magnetic assembly is provided. The first voice coil includes an electrically conductive wire being orientated in a first winding direction to generate a first magnetic field. The magnetic assembly is positioned within the housing. The magnetic assembly is configured to move within the housing to generate a tactile output and to repel against the first voice coil based on a polarity of the first magnetic field as the magnetic assembly moves toward the first voice coil to prevent contact of a first portion of the magnetic assembly with a first side of the housing.

In at least one embodiment, a tactile transducer including a housing, a first voice coil and a magnetic assembly is provided. The first voice coil includes an electrically conductive wire being orientated in a first winding direction to generate a first magnetic field. The magnetic assembly is positioned within the housing. The magnetic assembly is configured to move within the housing to generate a tactile output and to repel against the first voice coil based on a polarity of the first magnetic field as the magnetic assembly moves toward the first voice coil to prevent contact of a first portion of the magnetic assembly with a first side of the housing.

In one embodiment, there is described a new transducer, and in particular an improved system and method for producing linear motion for a transducer such as used in voice coils converting from an electrical input to a mechanical linear motion input.

An array type magnetic circuit system includes a T yoke, magnetic steels and a washer. The T yoke includes a bottom plate, and more than two central columns located on the bottom plate and distributed in an array. The magnetic steels are respectively disposed at two sides of each of the central columns and provide a magnetic energy for the magnetic circuit system. Hole positions coupled with the central columns correspondingly are formed on the washer and the washer is tightly connected to the T yoke. According to the array type magnetic circuit system, under a condition in which a plurality of magnetic circuits are combined, the T yoke and the washer are respectively taken as a component, so that the precision of a product can be controlled better.

A loudspeaker includes a magnet, a T-yoke, a frame, a top plate, a voice coil, a damper, a dust cap, a cone paper, and a gasket. The cone paper being provided with a surround, the gasket being located below the outer edge of the frame, the magnet being located above said T-yoke. A magnetic gap is formed between the top plate and the T-yoke. The voice coil being arranged in the magnetic gap, the voice coil including VC wire part and VC tube part. The top plate being provided with a riveted groove on the outer side, the top plate being riveting mounted in the frame via the riveted groove.

To make it possible to take countermeasures against noises of a loudspeaker by means of a simple configuration. A loudspeaker 10 includes: a bobbin 15 that is provided with a voice coil 31; a diaphragm 13 that is connected to the bobbin 15; a frame 11 that supports the diaphragm 13; and a magnetic circuit section 17 that includes a magnet 22. The loudspeaker 10 further includes: a first conductive body 41 that is connected to the voice coil 31 and is led out to the outside of a bobbin 15A; and a second conductive body 51 that is connected to the first conductive body 41 and penetrates the magnet 22.

A sound generator including a housing having a first wall portion with a housing opening, a shielding element covering at least a portion of the first wall portion and having a shield opening, where the shielding element covers a portion of the first wall portion.