The present invention provides a sound generator. A magnetic circuit system of the sound generator forms a mortise-and-tenon structure between a magnet and a lower plate, and the magnet and a pole plate, through tenons and mortises, which enlarges the mutual contact areas, and is more convenient for processing positioning, preventing assembling dislocation, enlarging the gluing area and improving the drop reliability and therefore improving the structural stability of the magnetic circuit system.

A shading ring is disposed in a magnetic circuit system. The magnetic circuit system includes a main magnet, a washer, a voice coil and a secondary magnet. The shading ring is located inside the voice coil. The shading ring includes a first ring body and a second ring body. The second ring body is formed by bending a lower end of the first ring body outward. The first ring body includes a first perpendicular portion and a first horizontal portion. A first cavity is formed inside the first perpendicular portion. The secondary magnet is located in the first cavity. The first horizontal portion is fixedly connected to an upward side of the secondary magnet. The shading ring is arranged into a structure having the first ring body and the second ring body.

The present invention is related to a hybrid speaker comprising a tweeter and a dynamic woofer, wherein the tweeter has upper and lower coils arranged opposite to each other, an open-type high-tone vibration plate formed with a closed-type center hole at its center and located between the upper and lower coils, and one or more permanent magnets arranged outside the upper and lower coils, and wherein the woofer is coaxially coupled to a lower side of the tweeter so as to let low tone sound generated from a low tone vibration plate of the woofer pass through the hole of the high tone vibration plate of the tweeter.

Magnetic field cancelling audio speakers and associated devices are disclosed. In one embodiment, a utility locator includes an audio speaker device with two loudspeaker drivers positioned and electrically connected to reduce emitted magnetic fields over a range of frequencies corresponding with locator sensing frequencies.

A magnetic field transmitter, especially a transmitter used in conjunction with wireless communications earplugs. In one embodiment, a plate of magnetic material is used behind a coil of electrical conductor to improve the efficiency of the transmitter and to provide electrical and magnetic shielding. The specific dimensions and characteristics of the preferred embodiment of the transmitter described herein provide for efficient wireless communications.

A headphone includes an electro-acoustic transducer for creating audio output, the electro-acoustic transducer comprising a transducer magnet that produces a transducer magnetic field having a magnetic field strength, structure that is constructed and arranged to be positioned so as to direct the audio output at the ear canal of the ear of a wearer of the headphone, a magnetic field sensor constructed and arranged to sense the Earth's magnetic field, and a nulling magnet constructed and arranged to produce a nulling magnetic field that reduces the strength of the transducer magnetic field at the magnetic field sensor.

A forced ventilation woofer or electromechanical transducer (e.g., 200 or 300) includes a motor structure and voice coil winding support structure or former (203 or 303) configured with a vented annular spacer (e.g., 250) and vented distal pole tip member (e.g., 255) having aligned radial channels aimed to transport heat away from a voice coil (202 or 302) during the transducer's reciprocating movement while providing an extended, linear dynamic range and continuous cooling for the voice coil. A dual magnetic gap embodiment has an inside annular spacer member (e.g., 355A) and a co-planar outside annular spacer member (e.g., 350-O), each made of a thermally conductive steel alloy.

A speaker is provided, including a speaker housing and a speaker body. The speaker body is connected to the speaker housing, the speaker body and the speaker housing form a cavity, the cavity includes a first inner cavity and a second inner cavity, and the first inner cavity and the second inner cavity are connected through a connecting hole.

A two-way speaker includes: a frame having a space for accommodating parts; a yoke partitioning the space of the frame vertically and having a lower surface and a side wall; a first speaker unit disposed below the yoke and having a magnet, a top plate, a voice coil, and a diaphragm; a protector disposed below the first speaker unit and protecting the diaphragm; a second speaker unit disposed above the yoke and having a magnetic circuit and a flexible-printed coil membrane (F-PCM) diaphragm having a coil pattern formed on a polymer film; and a sound emission yoke attached to an upper surface of the second speaker unit.

A bone conduction device configured to couple to an abutment of an anchor system anchored to a recipient's skull. The bone conduction device includes a vibrating electromagnetic actuator configured to vibrate in response to sound signals received by the bone conduction device, and a coupling apparatus configured to attach the bone conduction device to the abutment so as to impart to the recipient's skull vibrations generated by the vibrating electromagnetic actuator. The vibrating electromagnetic actuator includes a bobbin assembly and a counterweight assembly. Two axial air gaps are located between the bobbin assembly and the counterweight assembly and two radial air gaps are located between the bobbin assembly and the counterweight assembly. No substantial amount of the dynamic magnetic flux passes through the radial air gaps.