| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 398132000 | PHOTOPHONE | 18 |
| 20100322635 | USING AMBIENT LED LIGHT FOR BROADCASTING INFO AND NAVIGATION - A mobile device for receiving modulated light, an apparatus for transmitting information by modulated light and a system as well as corresponding methods are disclosed to be able to use at least parts of an illumination infrastructure for transmitting data to a mobile device. The mobile device comprises a visible light receiver for receiving modulated visible light carrying information corresponding to transmission data modulated onto visible light emitted from at least one light source and for outputting a signal based on the received modulated visible light, and a demodulator for demodulating said signal based on the received modulated visible light to extract said information corresponding to said transmission data. | 12-23-2010 |
| 20120002975 | WIRELESS MICROPHONE - A wireless microphone transmits audio signals using infrared rays. A plurality of infrared light emitting devices are attached to a board in the wireless microphone, and at least one of the plurality of infrared light emitting devices is disposed on each side of the board. A plurality of infrared light emitting devices may be provided on each side of the board, and the infrared light emitting devices may be disposed radially. Without providing a different dedicated board for the light emitting devices than the board, infrared rays can be radiated to an area around the mic. In this manner, a wireless microphone is provided that can radiate infrared rays to an area around the mic and that has a simple structure and a small number of components and thus can improve productivity. | 01-05-2012 |
| 20130064552 | HEARING DEVICE WITH OPTICAL RECEIVER - A hearing system includes a hearing device for wear by a user, the hearing device comprising a speaker, and an optical receiver configured to detect light signals, and generate electrical signals in response to the detected light signals, wherein the speaker of the hearing device is communicatively coupled to the optical receiver, and is configured to provide audio signals based at least in part on the electrical signals. A hearing system includes a hub configured to receive an input from a user of the hub, and generate an output in response to the input, and a light source communicatively coupled to the hub, wherein the light source is configured to provide light signals for reception by a hearing device based at least in part on the output from the hub. | 03-14-2013 |
| 20140105609 | LIGHT POWERED COMMUNICATION SYSTEMS AND METHODS OF USING THE SAME - A light powered communications system. The light powered communications system includes an audio control center having at least one optical source and at least one optical receiver. The light powered communications system also includes a plurality of optically powered remote communication systems located remote from the audio control center, each of the optically powered remote communication systems being configured to receive an optical signal from the audio control center. The light powered communication system also includes at least one length of fiber optic cable between the audio control center and each of the optically powered remote communication systems. | 04-17-2014 |
| 20170238102 | APPARATUSES AND METHODS FOR SOUND RECORDING, MANIPULATION, DISTRIBUTION AND PRESSURE WAVE CREATION THROUGH ENERGY TRANSFER BETWEEN PHOTONS AND MEDIA PARTICLES | 08-17-2017 |
| 398133000 | Specific transducer | 13 |
| 20090257753 | ELECTROACOUSTIC TRANSDUCER - An acoustoelectric transducer comprising a laser source A and a light receiver H, wherein a soundfield S is provided by which the propagation velocity of the laser beam may be modulated according to the sound pressure while it traverses the soundfield S. | 10-15-2009 |
| 20110194857 | Signal Processing Within an Optical Microphone - An optical microphone that may include a first substrate with one or more acoustic entry ports and a die over the one or more acoustic entry ports. The die may include a sensing structure for detecting acoustic vibrations received via the acoustic entry port(s) and may form a first cavity between the first substrate and the sensing structure. The microphone may include a light source within the first cavity, which may transmit laser light. The optical microphone may include photo detector(s) within the first cavity. The one or more photodetectors may be configured to receive the laser light after reflection from the sensing diaphragm to measure the acoustic vibrations of the sensing diaphragm. The microphone may also include a circuit and a lid, where the die, light source, photo detectors, and circuit are comprised within the cavity of the microphone. The circuit may perform signal processing signals from the photodetector(s). | 08-11-2011 |
| 20120230699 | LIGHT-BASED DETECTION FOR ACOUSTIC APPLICATIONS - A light-based skin contact detector is described, including a boot having an index of refraction less than or equal to another index of refraction associated with skin at a frequency of light, a light emitter and detector coupled to the boot and configured to measure an amount of light energy reflected by an interface of the boot, and a digital signal processor configured to detect a change in the amount of light energy reflected by the interface. Embodiments relate to methods for detecting skin contact by measuring an amount of energy reflected by an interface when a boot is not in contact with skin, measuring another amount of energy reflected by another interface when the boot is in contact with the skin, and detecting a change between the amount of energy and the another amount of energy using a digital signal processor. | 09-13-2012 |
| 20120263478 | HEARING AID SYSTEM USING WIRELESS OPTICAL COMMUNICATIONS - Provided is a hearing aid system using a wireless optical communications method. The hearing aid system includes: a voice transmitter that converts addresser's voice into an optical signal to then transmit the converted optical signal; and a hearing aid that restores the optical signal received from the voice transmitter into the addresser's voice to then output the restored addresser's voice. Accordingly, the addresser's voice can directly be transmitted to the hard-of-hearing via wireless optical communications, to thereby prevent a voice discriminating power from lowering even in the case that ambient noise of an addresser as well as a listener is big. | 10-18-2012 |
| 20120321322 | OPTICAL MICROPHONE - Some embodiments relate to an optical microphone according to an example embodiment. The optical microphone includes a semiconducting laser. The semiconducting laser includes a p-n junction within a cavity. The optical microphone further includes an acoustic membrane that receives coherent light emitted from the semiconducting laser and directs reflected light back toward the semiconducting laser. During operation of the optical microphone, the acoustic membrane flexes in response to pressure waves. The phase of the reflected light is dependent upon a distance of the acoustic membrane from the semiconducting laser. | 12-20-2012 |
| 20130142519 | OPTICAL MICROPHONE - An optical microphone includes: a propagation medium portion; a light source to output a light wave passing through the propagation medium portion across the acoustic wave propagating through the propagation medium portion; a reflecting section to retroreflect the light wave having passed through the propagation medium portion; and a photoelectric conversion section to receive the light wave having been reflected by the reflecting section and passed through the propagation medium portion to output an electric signal. 0 | 06-06-2013 |
| 20130230329 | OPTICAL MICROPHONE - An optical microphone includes: a light source; a first polarizer for allowing linearly-polarized light, of light output from the light source, to pass therethrough; a second polarizer for allowing linearly-polarized light having a different polarization plane from the first polarizer to pass therethrough; a sound-receiving section including an acoustic medium having a smaller sound velocity than the air, wherein an acoustic signal propagates through the acoustic medium, the sound-receiving section being arranged so that the linearly-polarized light from the first polarizer passes through the acoustic medium and enters the second polarizer; and a photodetector for converting an intensity of light having passed through the second polarizer to an electric signal, wherein between the first polarizer and the second polarizer, the linearly-polarized light having passed through the first polarizer is given different phase shifts in two orthogonal directions which are each different from a polarization direction. | 09-05-2013 |
| 20130308957 | OPTICAL MICROPHONE - An optical microphone includes: an acousto-optic medium section having a pair of principal surfaces and at least one lateral surface provided therebetween; a restraint section which is in contact with the at least one lateral surface for preventing a shape change of the acousto-optic medium section; and a light emitting section for emitting a light wave so as to propagate through the acousto-optic medium section between the pair of principal surfaces. The pair of principal surfaces are in contact with an environmental fluid through which an acoustic wave to be detected is propagating and are capable of freely vibrating, and an optical path length variation of a light wave propagating through the acousto-optic medium section, which is caused by the acoustic wave that comes into the acousto-optic medium section from at least one of the pair of principal surfaces and propagates through the acousto-optic medium section, is detected. | 11-21-2013 |
| 20140050489 | OPTICAL MICROPHONE - An optical microphone for detecting an acoustic wave propagating through an environmental fluid by using a light wave, includes: an acoustic wave receiving section having a propagation medium portion through which an acoustic wave propagate and a first support portion for supporting the propagation medium portion; a light source for outputting a light wave so that the light wave passes through the propagation medium portion across the acoustic wave propagating through the propagation medium portion; a light-blocking portion having an edge line for splitting the light wave having passed through the propagation medium portion into a blocked portion and a non-blocked portion; and a photoelectric conversion section for receiving a portion of the light wave having passed through the propagation medium portion which has not been blocked by the light-blocking portion to output an electric signal. | 02-20-2014 |
| 20140056590 | POROUS SILICA MATERIAL AND OPTICAL MICROPHONE - A porous silica material disclosed in the present application is a porous silica material in which a plurality of silica particles are connected to one another three-dimensionally, wherein: a density of the porous silica material is less than 220 kg/m | 02-27-2014 |
| 20140119737 | System and Method for Detection of Speech Related Acoustic Signals by Using a Laser Microphone - A system for detection of speech related acoustic signals by using laser based detection that includes a mask configured for being worn over a face part of a speaker covering the speaker's mouth, where the mask includes at least one reflective coating covering at least one area of the mask that reflects collimated electromagnetic signals; and a laser microphone configured for detecting vibrations of the reflective coating area for detection of acoustic signals associated with speech of the speaker by using collimated electromagnetic signals. The mask the reflective coating area thereof allow enhancing detection of vibrations resulting from speech carried out by the speaker wearing said mask. | 05-01-2014 |
| 20140153930 | TRANSDUCER SYSTEM | 06-05-2014 |
| 398134000 | Including optical fiber or waveguide | 1 |
| 20110123199 | OPTICAL ULTRASONIC MICROPHONE - An optical ultrasonic microphone includes an acoustic waveguide that transmits a sound wave received from an opening, an optical acoustic propagation medium that forms at least one portion of a wall face of the acoustic waveguide and an LDV head, and a sound wave proceeding through the acoustic waveguide is received by the optical acoustic propagation medium so that a change in the refractive index caused by the proceeding sound wave inside the optical acoustic propagation medium is generated with high efficiency, and by detecting this as an optical modulation by the LDV head, the optical ultrasonic microphone is allowed to have a very wide band. | 05-26-2011 |
