| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 381165000 | By modifying fluid flow | 9 |
| 20080212806 | High-frequency pneumatic loudspeaker for audio broadcasting - A high-frequency pneumatic loudspeaker for sound broadcasting is provided, and comprises a housing, silencer exhaust holes, air inlet port, supporting plate, throat canal, central cone, annular nozzle, obstructing ring, and a voice coil and leads. Lower and an upper press plates hold the obstructing ring and the voice coil in position, a magnet having inner and outer magnetic poles is connected therewith, wherein a small gap exists between the obstructing ring and the end of the annular nozzle. This provides the advantages of both air passage area modulation by a sleeve air valve and airstream direction modulation by jet obstruction, reduces airstream consumption, improves air-sound conversion efficiency, and improves structures of an annular air flow-splitter, voice coil and leads. A cooling system is provided to improve high-frequency modulation sensitivity, operation stability, and/or extended fault-free operation time. | 09-04-2008 |
| 20090022340 | Method of Acoustic Wave Generation - A method of converting an audio signal into vibratory modulation of a fluid includes converting a series of pulses representative of the audio signal into a plurality of signals having an intermediate peak-to-peak voltage; summing said signals having said intermediate voltage to provide a driver signal having a high peak-to-peak voltage; supplying said driver signal to an electrostatic fluid accelerator; and generating a corona discharge inducing said vibratory modulation of said fluid. | 01-22-2009 |
| 20100322444 | Loudspeaker arrangement - A loudspeaker arrangement ( | 12-23-2010 |
| 20130177179 | Inflatable Ear Device - A diaphonic valve utilizing the principle of the Synthetic Jet is disclosed herein. A diaphonic valve pump is provided for the inflation of an in-ear balloon. More complex embodiments of the present invention include stacks of multiple synthetic jets generating orifices as well as an oscillating, thin polymer membrane. In one or more embodiments of the present invention, a novel application is provided for the creation of static pressure to inflate or to deflate an inflatable member (balloon). In addition, sound can be utilized to inflate or deflate an inflatable member in a person's ear for the purpose of listening to sound. | 07-11-2013 |
| 20130294623 | High Performance Transducer - Systems and methods for a high performance transducer are disclosed. For example, one described transducer includes: a pressure locking chamber with at least one orifice; a two-state solenoid configured to be controlled by a control circuit and a capacitor, the two-state solenoid comprising a solenoid housing; and a permanent magnet assembly configured to be actuated by the two-state solenoid to move between an open and a closed position, the permanent magnet assembly comprising a stopper configured to seal the at least one orifice in the closed position. | 11-07-2013 |
| 20150030187 | ACOUSTIC TRANSDUCER INCLUDING AIRFOIL FOR GENERATING SOUND - Systems, apparatus, devices, and methods for converting electrical signals into sound using an acoustic transducer. The inventive acoustic transducer utilizes the motion of an airfoil shaped element to generate a sound wave, with the airfoil element being driven in response to an electrical signal input to a suitable driving element. In some embodiments, the airfoil element or elements act to mechanically couple the motion of an armature attached to the driver to the surrounding air, producing sound waves in a more efficient manner than typical acoustic transducer devices. Embodiments of the invention may be used in the design of loudspeakers, earpieces, headphones, and other devices for which a high efficiency transducer is desired. | 01-29-2015 |
| 20150319534 | EVACUATION OF LIQUID FROM ACOUSTIC SPACE - An acoustic module, such as a microphone or speaker module, includes an acoustic membrane that vibrates to produce acoustic waves and an acoustic cavity through which acoustic waves produced by the membrane travel. A liquid removal mechanism removes liquid from the acoustic cavity. Such a liquid removal mechanism may include the acoustic membrane, heating elements, hydrophobic and/or hydrophilic surfaces, and so on. In some cases, the liquid removal mechanism may remove liquid from the acoustic cavity upon connection of the acoustic module and/or an associated electronic device to an external power source. | 11-05-2015 |
| 20150381024 | Linear Loudspeaker Motor - A linear loudspeaker motor. A flat, relatively thin, rigid elongate motor armature is disposed in a gap between the north pole of one elongate magnet and the south of another elongate magnet, or a gap between the north and south poles of the same, or effectively the same, magnet. Several alternative means are provided to suspend the armature in the gap. The armature includes an elongate electrically conductive, low impedance strip. When a current flows in the strip, a force is produced that tends to move the elongate armature in or out of the gap, thereby displacing a loudspeaker diaphragm to which it is attached. | 12-31-2015 |
| 20160112810 | Rotary Transducer with Improved High Frequency Output - A rotary sound transducer having an improved output at higher frequencies. The invention includes stiff vanes that are preferably rigidly attached to a hub. A torsional actuator is provided in each vane. The torsional actuator selectively twists the tip portion of each vane. The torsional actuator for each vane is activated by an input energy source corresponding to the sound waves that are desired. The input force may also be electromechanical energy, purely mechanical energy, or some other form of energy. | 04-21-2016 |
