Class / Patent application number | Description | Number of patent applications / Date published |
250227240 | With coupling enhancement means | 22 |
20080197273 | Light Detection Apparatus - A light detection apparatus is described. The apparatus includes a photomultiplier tube having a window for receiving light incident thereon. A photocathode is affixed to an inner surface of the window in a known manner. The apparatus further includes an optical fiber and a means for coupling the optical fiber to the window of said photomultiplier tube so that light can be introduced into the window at an angle that results in total internal reflection of the light. The coupling means may be embodied as a fiber optic terminal connector. Alternatively, the coupling means may include a prism affixed to the outside surface of the window. | 08-21-2008 |
20080265147 | POROUS MICROSPHERE RESONATORS - There are several different applications where it is desirable to increase the amount of material that can be introduced to the surface of a microresonator that has whispering gallery modes. The use of a porous surface on the microresonator permits greater amounts of the material to be captured on or near the surface of the microresonator, resulting in an increased optical interaction between the material and the light propagating in the whispering gallery mode(s) of the microresonator. | 10-30-2008 |
20090032689 | Optical sensor device - An optical sensor device has a sensor unit, which includes a light transmitter, a light receiver and a lens plate, with which a beam of light emitted by the light transmitter is coupled into the window pane, coupled out of the window pane and directed onto the light receiver. On its surface facing the light transmitter and the light receiver, the lens plate includes Fresnel lens structures, and on the opposite surface facing the window pane it includes Fresnel reflector structures. This embodiment is particularly useful as rain sensor. Without light transmitter, the sensor device can be used as a light sensor. | 02-05-2009 |
20090272883 | Method and apparatus for blocking ambient light in a live fiber optic identifying device - Spurious light is prevented from entering a cover of an optical fiber identification device by placing an opaque, flexible medium such as brush bristles within optical fiber clearance openings in the cover to block the light path around the fiber. Short opposing lengths of strip brushes are placing on either side of each of the slot openings in the cap. The opposing bristles make contact with each other in the slot, keeping out most ambient light. The strip brushes exert very little force on the fiber, permitting it to bend freely. | 11-05-2009 |
20100065726 | SUBSTRATES AND OPTICAL SYSTEMS AND METHODS OF USE THEREOF - This invention provides substrates for use in various applications, including single-molecule analytical reactions. Methods for propagating optical energy within a substrate are provided. Devices comprising waveguide substrates and dielectric omnidirectional reflectors are provided. Waveguide substrates with improved uniformity of optical energy intensity across one or more waveguides and enhanced waveguide illumination efficiency within an analytic detection region of the arrays are provided. | 03-18-2010 |
20100078547 | OPTICAL ELEMENT FOR FREE-SPACE PROPAGATION BETWEEN AN OPTICAL WAVEGUIDE AND ANOTHER OPTICAL WAVEGUIDE, COMPONENT, OR DEVICE - An optical element comprises a substantially transparent material having opposing first and second transmission surfaces and a substantially flat mounting surface between them, an alignment mark, and an optical coating. The optical element is mounted self-supporting on a substrate with the mounting surface on a mating portion thereof. With the alignment mark aligned to a corresponding mark on the substrate, waveguides on the substrate can be end-coupled by reflection from the first transmission surface. The transmission and mounting surfaces are arranged to position the transmission surfaces at respective orientations relative to the substrate surface so that an optical beam propagating substantially parallel to the substrate surface and entering the optical element through the first transmission surface propagates as an optical beam through the optical element above the mounting surface and exits the optical element through the second transmission surface. The optical element can further include a lens or an aperture. | 04-01-2010 |
20100148041 | OPTICAL RECEIVER MODULE AND MANUFACTURING METHOD FOR THE OPTICAL RECEIVER MODULE - Provided is an optical receiver module capable of suppressing an increase, which is caused by tolerance of angle occurring at a time of manufacturing, in an amount of reflected return light that enters into an optical fiber while ensuring light-receiving efficiency. The light-receiving element ( | 06-17-2010 |
20100213357 | Fibre optic probe - A bidirectional fibre optic probe comprises an optical in/out coupler and a single fibre or a bundle of fibres, each fibre having a proximal end and a distal end and a numerical aperture NA=sin θ. The numerical aperture NA describes the range of angles over which the optical fibre's proximal end can accept or emit light. The numerical aperture depends on the refractive index n of the fibre core and is given by NA=n sin* θ. θ is the acceptance angle being defined as the half angle of the acceptance cone of the fibre at its proximal end. | 08-26-2010 |
20100243870 | Main Body Unit Of Optical Fiber Photoelectric Sensor And Optical Fiber Photoelectric Sensor - The present invention provides a main body unit of an optical fiber photoelectric sensor and the optical fiber photoelectric sensor, which improves optical coupling efficiency of a light emitting element and a light projecting side optical fiber and is capable of making uniform light incident on the light projecting side optical fiber without highly accurately positioning the light emitting element and a condenser lens. The main body unit of the optical fiber photoelectric sensor makes light emitted from an LED chip converge by the condenser lens and incident on the light projecting side optical fiber; and also makes light not incident on the condenser lens and emitted around the condenser lens reflect by a reflecting surface provided around the condenser lens, then refract the reflected light by a refractive surface, and incident on the light projecting side optical fiber. | 09-30-2010 |
20100320370 | VARIABLE OPTICAL ATTENUATOR - A variable optical attenuator (VOA), which may include a Mach-Zehnder interferometer, is configured such that a substantial part of an input signal is output on a first waveguide, and a relatively small part of the input signal may be output on a second waveguide due to manufacturing process variations and/or other non-idealities. Such residual or extraneous light may interfere with light in the first waveguide, especially if the VOA is integrated on substrate. Accordingly, consistent with an aspect of the present disclosure, a photodiode may be provided to receive and absorb the residual light, thereby minimizing interference or cross-talk with light in the first waveguide. | 12-23-2010 |
20110108716 | OPTO-ELECTRONIC CIRCUIT BOARD AND MANUFACTURING METHOD FOR THE SAME - There is provided an opto-electronic circuit board that includes a first board, a second board coupled with the first board via solder, where the second board is mounted with an electronic circuit and a photoelectrical conversion device, and a wall disposed between an optical coupling portion and the solder. The optical coupling portion is for optically coupling an optical waveguide with the photoelectric conversion device, where the optical waveguide is formed in the first board. | 05-12-2011 |
20110133063 | Optical waveguide and coupler apparatus and method of manufacturing the same - Optical waveguide and coupler devices and methods include a trench formed in a bulk semiconductor substrate, for example, a bulk silicon substrate. A bottom cladding layer is formed in the trench, and a core region is formed on the bottom cladding layer. A reflective element, such as a distributed Bragg reflector can be formed under the coupler device and/or the waveguide device. Because the optical devices are integrated in a bulk substrate, they can be readily integrated with other devices on a chip or die in accordance with silicon photonics technology. Specifically, for example, the optical devices can be integrated in a DRAM memory circuit chip die. | 06-09-2011 |
20110266422 | Optical device having partially butt-coupled light sensor - An optical device includes a light-transmitting medium positioned on a base. The light-transmitting medium defines a waveguide. The optical device also includes a light sensor. The light sensor includes a light-absorbing medium positioned on the base. A portion of the waveguide ends at a facet such that a first portion of a light signal being guided by the wavegide passes through the facet and a second portion of the light signal bypasses the facet and remains in the light-transmitting medium. The light-absorbing medium is positioned on the light-transmitting medium such that the light-transmitting medium is between the light-absorbing medium and the base. Additionally, the light-absorbing medium is positioned on the light-transmitting medium such that the light-absorbing medium receives the first portion of the light signal that passes through the facet. Further, the light-absorbing medium is configured such that the second portion of the light signal is coupled into the light-absorbing medium from the light-transmitting medium. | 11-03-2011 |
20110303830 | OPTOELECTRONIC TRANSMISSION SYSTEM - An optoelectronic transmission system includes a light guide module, an optical signal source, an optical fiber, and a light detector. The light guide module includes a light guide body, and a lens formed on the light guide body. The optical signal source emits output optical signals towards the light guide body. The light guide body reflects and directs the output optical signals towards the lens. The optical fiber includes a first end and an opposing second end. The optical fiber transmits the output optical signals from the first end to the second end, and transmits input optical signals from the second end to the first end. The light guide body transmits the input optical signal therethrough. The light detector is positioned at an opposite side of the light guide module to the optical fiber. The light detector receives and converts the input optical signals into electrical signals. | 12-15-2011 |
20120104240 | FIBER OPTIC TRANSCEIVER (FOT) MODULE HAVING A MOLDED COVER IN WHICH AN OPTICAL BEAM TRANSFORMER IS INTEGRALLY FORMED - An FOT module is provided that has a molded cover in which an optical beam transformer is integrally formed. The molded cover includes at least a nontransparent molded part that is secured to a mounting structure, such as a molded leadframe or a PCB, on which at least one active optical device is mounted. The material of which the nontransparent molded part is made has a CTE that matches, or nearly matches, the CTE of the body of the mounting structure. Consequently, exposure of the FOT module to temperature variations will not result in delaminations at the interface of the mounting structure and the nontransparent molded part. | 05-03-2012 |
20130334408 | COOLED OPTICAL LIGHT GUIDE FOR LOW-LEVEL LIGHT DETECTORS AND METHOD OF TEMPERATURE STABILIZATION FOR IMAGING DETECTORS - A cooled optical light guide is provided having a conduit having a translucent top and a translucent bottom wherein at least a portion of the translucent top of the conduit is in alignment above at least a portion of the translucent bottom of the conduit. A fluid medium that is preferably cooled flows through the conduit. The optical light guide is placed between a scintillator array and an array detector. The temperature of the light that is emitted by the scintillator array is stabilized, and preferably cooled, as it passes through the translucent bottom of the conduit and through the translucent top of the conduit for detection by the array detector. A method of temperature stabilization for photomultiplier based detectors is disclosed. | 12-19-2013 |
20140183344 | HYBRID OPTICAL COUPLING MODULE AND MANUFACTURING METHOD THEREOF - Provided are a hybrid optical coupling module and a manufacturing method thereof. | 07-03-2014 |
20140353476 | FIBER OPTICAL SUPERCONDUCTING NANOWIRE SINGLE PHOTON DETECTOR - A fiber optical superconducting nanowire detector with increased detector efficiency, fabricated directly on the tip of the input optical fiber. The fabrication on the tip of the fiber allows precise alignment of the detector to the fiber core, where the field mode is maximal. This construction maximizes the coupling efficiency to close to unity, without the need for complex alignment procedures, such as the need to align the input fiber with a previously fabricated device. The device includes a high-Q optical cavity, such that any photon entering the device will be reflected to and fro within the cavity numerous times, thereby increasing its chances of absorption by the nanowire structure. This is achieved by using dedicated cavity mirrors with very high reflectivity, with the meander nanowire structure contained within the cavity between the end mirrors, such that photons impinge on the nanowire structure with every traverse of the cavity. | 12-04-2014 |
20160033729 | OPTICAL ENGINE - An optical engine includes a fiber joint, a fiber pad, and a photoelectric module. The fiber joint, has a fiber installation part and an optical signal output part. The fiber installation part is for accommodating a plurality of fibers, the optical signal output part includes a plurality of fiber positioning through holes running through the optical signal part. Each fiber plugs into one terminal of each positioning through hole and outputs an optical signal via the other terminal of the positioning through hole. The fiber pad is disposed on the fiber installation part and has a plurality of fiber guiding grooves for guiding the fibers to the corresponding fiber positioning through holes. The photoelectric module has a plurality of photoelectric components. Each photoelectric component is aligned with one of the positioning through holes for converting the optical signals coming from the fiber positioning through holes into electric signals. | 02-04-2016 |
250227250 | Fluid coupling | 3 |
20090127444 | Raindrop detection apparatus - A raindrop detection apparatus includes a light emitting unit for emitting light to an inner side of a windshield, a light receiving unit for receiving the light reflected by an outer surface of the windshield, a first lens unit which is arranged between the windshield and the light emitting unit to convert the light from the light emitting unit into parallel light, and a second lens unit which is arranged between the windshield and the light receiving unit to converge the reflected light at the light receiving unit. The second lens unit is larger than a radial cross section of the reflected light. An amount of raindrop landed on the outer surface of the windshield is detected based on an intensity of the light received by the light receiving unit. | 05-21-2009 |
20100155584 | SENSOR FOR DETECTING DIRT AND/OR RAIN AND METHOD FOR OPERATING A SENSOR - A sensor detects dirt and/or rain having a transmitter unit ( | 06-24-2010 |
20120056081 | Light-Tracking Optical Device and Application to Light Concentration - An automatic optical coupling device that uses liquid to couple focused light into a light-guide is described. The liquid moves within a chamber or layer via the thermocapillary effect in order to automatically track and couple a moving spot of focused light. Also provided is the application of these coupling devices in an array feeding into a common light-guide, optical designs to improve the performance of these arrays, and the application of such arrays to light collection. | 03-08-2012 |