Patent application number | Description | Published |
20100278478 | MULTI-CHANNEL OPTICAL COUPLER - A solid core, multi-channel optical coupler comprising an elongate mixer body having an input end, an output end and sidewalls forming a length of the mixer body, where the input end is configured for coupling to a plurality of input channels providing an optical signal for transmission through the mixer body, and a plurality of output tapers coupled to the output end. Each of the output tapers has a reception area adjacent the output end of the mixer body for receiving a portion of the optical signal transmitted through the mixer body. Furthermore, the reception area of each output taper is variable to vary the intensity of the optical signal received by the output taper. | 11-04-2010 |
20110013866 | FLEXIBLE OPTICAL INTERCONNECT - A flexible optical interconnect and method of forming the interconnect is disclosed. The optical interconnect includes a waveguide base formed from a flexible dielectric material. A three-sided channel is formed in the flexible material. Each side of the channel is coated with a reflective metallic coating. A cover piece is formed from the flexible material and coated with a reflective metallic coating on an underside. The cover piece is coupled to the waveguide base to form a flexible optical bus having at least one hollow metallized waveguide. The hollow metallized waveguide is configured to carry an optical signal. A transverse slot is formed in the cover piece and the waveguide base to form an aperture bisecting the hollow metallized waveguide to enable the optical signal to be detected and/or redirected. | 01-20-2011 |
20110033150 | OPTICAL TAPS FOR CIRCUIT BOARD-MOUNTED OPTICAL WAVEGUIDES - A method for installing an optical tap into an optical waveguide formed in a printed circuit board which comprises obtaining a printed circuit board having an optical waveguide formed therein, cutting a transverse groove that has a front plane and a back plane into the optical waveguide, such that the back plane of the groove forms an oblique angle relative to the incident beam of light, and inserting a pre-fabricated beamsplitter into the groove so that the beamsplitter is positioned at the oblique angle of incidence relative to the beam of light to enable a predetermined portion of the beam of light to be directed out of the waveguide. | 02-10-2011 |
20110058812 | Optically Enabled Broadcast Bus - Embodiments of the present invention are directed to optical multiprocessing buses. In one embodiment, an optical broadcast bus includes a repeater, a fan-in bus optically coupled to a number of nodes and the repeater, and a fan-out bus optically coupled to the nodes and the repeater. The fan-in bus is configured to receive optical signals from each node and transmit the optical signals to the repeater, which regenerates the optical signals. The fan-out bus is configured to receive the regenerated optical signals output from the repeater and distribute the regenerated optical signals to the nodes. The repeater can also serve as an arbiter by granting one node at a time access to the fan-in bus. | 03-10-2011 |
20110084047 | Methods For Fabrication Of Large Core Hollow Waveguides - Methods for making a photonic guiding system for directing coherent light are disclosed. The methods include forming a channel in a host layer using at least one process of sawing, laser ablation, laser direct write of a photoresist, photo-structuring, and etching. A layer of highly reflective material is applied to substantially cover an interior of the channel. A cover having a layer of highly reflective material is coupled over the channel to form a large core hollow waveguide. | 04-14-2011 |
20110129184 | WAVEGUIDE SYSTEMS AND METHODS - A waveguide apparatus is provided. The apparatus can include a base member including a first surface having at least one first attachment feature and a waveguide member including a first surface and a second surface. The waveguide member first surface is complimentary to and disposed proximate the base first surface. The waveguide member second surface can include at least one channel. The apparatus can further include a cover member, comprising a plurality of second attachment features adapted to engage at least a portion of the at least one first attachment features disposed thereabout. At least a portion of the cover member can be disposed proximate the at least one channel, to provide at least one hollow core waveguide. | 06-02-2011 |
20110164875 | SYSTEMS AND METHOD FOR ROUTING OPTICAL SIGNALS - Systems and a method for routing optical signals are disclosed. One system includes a first large core hollow metal waveguide configured to guide a substantially coherent optical beam. A second large core hollow waveguide is optically coupled to the first waveguide with a coupling device. The coupling device is configured to divide the coherent optical beam into a transmitted beam and a reflected beam. Beam walk-off within the coupling device causes the transmitted beam to be shifted by an offset amount. The second large core hollow metal waveguide is shifted from the first large core hollow metal waveguide by approximately the offset amount to receive the shifted transmitted beam. | 07-07-2011 |
20110211787 | OPTICAL INTERCONNECT COMPONENTS - A component for an optical interconnect includes a waveguide having at least one surface that is configured at an angle equal to or less than 90° relative to an axis of the waveguide. A tap is operatively connected to the waveguide. The tap has an angled surface that is adhered to the angled surface of the waveguide. An angle of the angled surface of the tap is substantially identical to the angle of the angled surface of the waveguide. An axis of the tap is positioned at an angle that is two times the angle of the angled surface of the tap. An at least partially reflective coating established on at least a portion of the angled surface of the tap. | 09-01-2011 |
20110211843 | Optical Broadcast With Buses With Shared Optical Interfaces - Various embodiments of the present invention are directed to optical broadcast buses configured with shared optical interfaces for fan-in and fan-out of optical signals. In one aspect, an optical broadcast bus ( | 09-01-2011 |
20110268392 | DEVICE FOR OPTICALLY COUPLING PHOTONIC ELEMENTS - A device for optically coupling two photonic elements may comprise an interposer where each photonic element is axially aligned with an optical pathway in the interposer. Also included is an optics assembly configured to direct a photonic signal along the optical pathway; and a mechanical guide assembly configured to reduce the relative tilt and rotation of photonic elements. Another such device may comprise two connectors where each connector comprises an optical pathway element in which an optics assembly is situated and a photonic element aligned with the optical pathway element. A mechanical guide assembly secures the optical pathway elements in a position so as to reduce the relative tilt and rotation of the photonic elements. A connection for optically coupling two computing units can comprise a partition situated between the computing units and on which an interposer is mounted. | 11-03-2011 |
20110268441 | CONFIGURABLE POINT-TO-POINT OPTICAL COMMUNICATIONS SYSTEM BETWEEN SERVERS - A configurable optical communications system ( | 11-03-2011 |
20110280513 | OPTICAL CONNECTOR INTERCONNECTION SYSTEM AND METHOD - A method for connecting adjacent computing board devices. A source computing board may be provided. An optical engine attaches to the source computing board. A plurality of source optical connectors couples to the optical engine. A first optical connector may be positioned at a location on the source computing board for a first preset type of computing component on an adjacent computing board. A second optical connector may be positioned at a fixed coordinate related to the first optical connector on the source computing board. | 11-17-2011 |
20120027339 | OPTICAL BUS FOR OPTICAL SIGNAL BROADCASTING - An optical bus is described for optical signal broadcasting. The optical bus can include a substrate and input optical waveguides formed on the substrate. First and second sets of output optical waveguides can also be formed on the substrate. Optical power splitters on the substrate can have an input and multiple outputs. The optical power splitters can be optically coupled to an input optical waveguide and can split an input optical beam into multiple output optical beams. The optical bus can include a waveguide shuffle network formed on the substrate. The waveguide shuffle network can include intersecting optical waveguides and can optically couple outputs from each of the optical power splitters to the first set of output optical waveguides and optically couple different outputs from each of the optical power splitters to the second set of output optical waveguides. | 02-02-2012 |
20120027357 | OPTICAL FIBER CONNECTOR - An optical fiber connector is disclosed. The optical fiber connector comprises a form having a curved surface with a first end near the bottom surface of the form. The curved surface is perpendicular to the bottom surface of the form at the first end. A first plurality of active optical fibers are positioned along the curved surface of the form in a side-by side arrangement with the tips of each of the first plurality of optical fibers adjacent to the first end of the curved surface. The ends of each of the first plurality of active optical fibers have been striped down to cladding and the cladding of each optical fiber contacts the cladding of the adjacent optical fibers. An inner cover is attached to the form thereby capturing the first plurality of active optical fibers between the curved surface of the form and an inside curved surface in the inner cover. | 02-02-2012 |
20120033914 | ANGLED COUPLING FOR OPTICAL FIBERS - An angled coupling for optical fibers can comprise a body ( | 02-09-2012 |
20120093459 | OPTICAL CHANNEL TAP ASSEMBLY - An optical channel tap assembly comprises a first N by M waveguide array including a first set of optical channels to convey optical signals along a first set of conveyance paths. The optical channel tap assembly also comprises a second N by M waveguide array including a second set of optical channels to convey the optical signals along a second set of conveyance paths, the optical signals received from the first set of conveyance paths. Additionally, the optical channel tap assembly comprises a beam splitter, disposed between the first N by M waveguide array and the second N by M waveguide array, to divert a first portion of power from the optical signals away from the second N by M waveguide array while allowing a second portion of power from the optical signals to propagate into the second N by M waveguide array. | 04-19-2012 |
20120134638 | WAVEGUIDE SYSTEM AND METHODS - Waveguide apparatuses and methods are provided. A waveguide method ( | 05-31-2012 |
20120195564 | WAVEGUIDE ARRAYS - A waveguide array can comprise a base portion having a metalized inner surface, an outer surface, and a clean end surface. The inner surface can include a plurality of waveguide channels that are metalized. The clean end surface can be prepared by breaking the base portion along a groove positioned on the outer surface prior to breaking, where the groove is oriented to intersect the waveguide channels. A metalized cover portion is attached to the inner surface of the base portion to close the waveguide channels. | 08-02-2012 |
20120263415 | OPTICAL INTERCONNECT - An optical interconnect includes an optical fiber which terminates in a interconnect body and a micro lens which collimates light exiting the optical fiber to produce a collimated beam. A first personality module is configured operate on the collimated beam; the first personality module being aligned with and detachably connected to the interconnect body. The optical interconnect is configured to be inserted into a socket in an optical backplane, the first personality module being further configured to operate on light passing from the optical backplane into the optical interconnect. | 10-18-2012 |
20120314292 | OPTICAL DEVICE FORMED OF AN ARRAY OF SUB-WAVELENGTH GRATINGS - An optical device includes a substantially planar substrate and a lens array disposed on the substantially planar substrate. The lens array is formed of a plurality of distinct sub-wavelength gratings, in which the sub-wavelength gratings are selected to produce a desired phase change in beams of light that are at least one of reflected and refracted by the sub-wavelength gratings of the lens array. | 12-13-2012 |
20130064505 | AREA ARRAY WAVEGUIDE POWER SPLITTER - A method for constructing an area array waveguide power splitter includes preparing a reflective layer on a substrate and forming a core of an area array waveguide layer and alignment features for an optical fiber input and a plurality of optical fiber outputs atop the reflective layer, wherein the core of the area array waveguide layer and the alignment features are formed concurrently. The method also includes applying a reflective layer to the top and side surfaces of the core of the area array waveguide layer and exposing an input and exposing a plurality of outputs in the reflective layer. | 03-14-2013 |
20130071064 | DEVICE FOR CONVERTING SIGNAL - A device for converting and optionally processing an optical signal comprises an optical cable having an optical-electrical conversion device at one end, the optical-electrical conversion device to convert the optical signal to an electrical signal or an electrical signal into an optical signal; a electrical package to removably receive the optical-electrical conversion device and generate processed signal; and a general circuit board attached to the electrical package and operable to receive the processed signal. | 03-21-2013 |
20130077220 | MODULE AND PORT - A first module including a first port to connect to a second module including a second port. The first port including an attraction field to attract a second port if the second port was within the attraction field. A flexible member can be connected to the first port and a first edge can apply a force to the first port. | 03-28-2013 |
20130094799 | OPTOELECTRONIC INTERFACE - An optoelectronic interface includes an optically transparent substrate; and an alignment layer comprising a pattern of alignment features disposed on said optically transparent substrate. | 04-18-2013 |
20130202253 | OPTICAL CONNECTOR - An optical connector includes a connector plate having a connecting face operable to mate with a different connecting face on a different optical connector. A slot can be formed in a side of the connector plate and have a length (L) extending from the connecting face to an opposite face in a direction substantially perpendicular to the connecting face. A groove can be formed in a portion of the bottom wall of the slot and can extend at least partially along the length of the slot. The groove can receive an optical fiber. The optical connector can also include a retaining block shaped to fit between side walls of the slot and between the connecting face and the opposite face to retain the optical fiber within the groove. | 08-08-2013 |
20130202313 | ELECTRONIC SYSTEM HAVING FANOUT OPTICAL BUSES - An electronic system includes a plurality of electronic nodes, each having a transmitter module and a plurality of receiver modules, in which the transmitter module is positioned at a same location with respect to the receiver modules in each of the electronic nodes, and a plurality of fanout optical buses, each fanout optical bus comprising a transmitter section, a plurality of receiver sections, and at least one substantially straight optical waveguide extending between the plurality of receiver sections, wherein each transmitter section is optically connected to a transmitter module of a respective one of the electronic nodes and wherein the receiver sections of each of the fanout optical buses is connected to respective ones of the receiver modules of the electronic nodes. | 08-08-2013 |
20130216180 | OPTICAL INTERCONNECT FABRICS IMPLEMENTED WITH STAR COUPLERS - This disclosure is directed to scalable optical interconnect fabrics for distributing optical signals over a computer systems. In one aspect, an optical interconnect fabric includes a star coupler and a plurality of output optical fibers. Each output optical fiber is connected at a first end to the star coupler and is connected at a second end to a node of a plurality of nodes. The fabric also includes the input optical fiber connected at a first end to the star coupler and connected at a second end to a node of the plurality of nodes. The star coupler is to receive at least one optical signal via the input optical fiber, is to split each optical signal into a plurality of optical signals with approximately the same optical power, and is to output each optical signal into one of the output optical fibers. | 08-22-2013 |
20130266255 | PASSIVE OPTICAL ALIGNMENT - A system for passive optical alignment includes an through optical via formed through a substrate, an optical transmission medium secured to a first side of the substrate such that the optical transmission medium is aligned with the through optical via, and an optoelectronic component secured to a second side of the substrate such that the active region of said optoelectronic component is aligned with the through optical via. | 10-10-2013 |
20130286614 | COMPOSITE WAFER INCLUDING A MOLDED WAFER AND A SECOND WAFER - A composite wafer includes a molded wafer and a second wafer. The molded wafer includes a plurality of first components, and the second wafer includes a plurality of second components. The second wafer is combined with the molded wafer to form the composite wafer. At least one of the first components is aligned with at least one of the second components to form a multi-component element. The multi-component element is singulatable from the composite wafer. | 10-31-2013 |
20130287337 | OPTICAL BEAM COUPLERS AND SPLITTERS - Beam couplers and splitters are disclosed herein. An example of a beam coupler and splitter includes a first waveguide having a first waveguide bevel and a bend, the first waveguide bevel to totally internally reflect at least some light incident thereon. A second waveguide includes a second waveguide bevel complementarily shaped to the first waveguide bevel, the second waveguide being coupled to the first waveguide such that i) the first waveguide bevel is offset from the second waveguide bevel so that a first portion of the first waveguide bevel is in direct contact with a first portion of the second waveguide bevel, a second portion of the first waveguide bevel is exposed, and a second portion of the second waveguide bevel is exposed, and ii) a predetermined coupling ratio is achieved. | 10-31-2013 |
20140037247 | APPARATUS FOR USE IN OPTOELECTRONICS HAVING A SANDWICHED LENS - According to an example, an apparatus for use in optoelectronics includes a bottom transparent layer, a top transparent layer having a top surface, a lens sandwiched between the bottom transparent layer and the top transparent layer, and a first alignment element attached to the top surface of the top transparent layer, wherein the first alignment element is offset with respect to the lens and is to mate with a mating alignment element on an optical transmission medium. | 02-06-2014 |
20140133803 | FIBER OPTICS CONNECTORS - Optical multifiber connectors with multiple termination ferrules and multilens arrays are disclosed. In one aspect, an optical fiber connector includes a multilens array and at least one alignment post. The lenses protrude from a first surface of a transparent plate, and the least one alignment post protrudes from a second surface of the transparent plate opposites the first surface. The connector includes a first standoff frame disposed on the first surface and a second standoff frame disposed on the second surface. | 05-15-2014 |
20140205237 | MECHANICALLY ALIGNED OPTICAL ENGINE - A mechanically aligned optical engine includes an optoelectronic component connected to a first side of a bench substrate and a transparent substrate bonded to a second side of the bench substrate. The transparent substrate comprises a mechanical feature designed to fit within an aperture of the bench substrate such that a lens formed onto the transparent substrate is aligned with an active region of the optoelectronic component. | 07-24-2014 |
20140219608 | OPTICAL POWER SPLITTERS - Waveguide array optical power splitters that provide compact, low-cost implementation of optical power splitting for one and two dimensional optical waveguide arrays are disclosed. The optical power splitters do not introduce mode dependent loss and preserve polarization, enabling the optical power splitters to be used with multimode and single mode light sources. In one aspect, an optical power splitter includes a beamsplitter to receive a plurality of incident beams of light. The beamsplitter splits each incident beam of light into a plurality of output beams of light with each output beam output in a different direction from the beamsplitter. The optical power splitter includes a first set of lenses with each lens to approximately collimate one of the incident beams of light, and includes a second set of lenses with each lens to focus the output beams of light. | 08-07-2014 |
20140301702 | Optical Connections - Techniques related to optical connectors are described. A ferrule includes an optical pathway for light transmission through the ferrule. In examples, a sub-wavelength grating (SWG) assembly is integrated in the ferrule, aligned with an end of the optical pathway. | 10-09-2014 |
20140308006 | Optical Connections - Techniques related to optical devices are described herein. In an example, an optical device includes (a) an input optical channel and a corresponding output optical channel, and (b) an assembly of sub-wavelength grating layers aligned to optically couple the input optical channel to the output optical channel. | 10-16-2014 |
20140321495 | INTEGRATED SUB-WAVELENGTH GRATING ELEMENT - An integrated sub-wavelength grating element includes a transparent layer formed over an optoelectronic substrate layer and a sub-wavelength grating element formed into a grating layer disposed on said transparent layer. The sub-wavelength grating element is formed in alignment with an active region of an optoelectronic component within the optoelectronic substrate layer. The sub-wavelength grating element affects light passing between said grating element and said active region. A method for forming an integrated sub-wavelength grating element is also provided. | 10-30-2014 |
20140328596 | COMBINATION UNDERFILL-DAM AND ELECTRICAL-INTERCONNECT STRUCTURE FOR AN OPTO-ELECTRONIC ENGINE - A combination underfill-dam and electrical-interconnect structure for an opto-electronic engine. The structure includes a first plurality of electrical-interconnect solder bodies. The first plurality of electrical-interconnect solder bodies includes a plurality of electrical interconnects. The first plurality of electrical-interconnect solder bodies, is disposed to inhibit intrusion of underfill material into an optical pathway of an opto-electronic component for the opto-electronic engine. A system and an opto-electronic engine that include the combination underfill-dam and electrical interconnect structure are also provided. | 11-06-2014 |
20140334781 | Optical Connections - Techniques related to optical connectors are described herein. In some examples, an optical connector is illustrated including a ferrule and a mating arrangement to mechanically attach the ferrule to an optical device. The mating element defines an insertion direction. The ferrule includes an optical pathway for light transmission through the ferrule. An end longitudinal section of the optical pathway is to optically couple the optical pathway to the optical device. The end longitudinal section is angled with respect to the insertion direction. | 11-13-2014 |
20140341516 | Glass-Silicon Wafer-Stacked Opto-Electronic Platforms - A glass-silicon wafer stacked platform. The platform includes a plurality of silicon pillars defining a ferrule receptacle, a silicon spacer connected to bases of the pillars and enclosing an aperture, a glass wafer bonded to the spacer, a microlens array formed in a first surface of the glass wafer and located in the aperture, conductive material carried by a second surface of the glass wafer, and contacts in electrical communication with the conductive material | 11-20-2014 |
20140370724 | FLEXIBLE CIRCUIT CABLE WITH FLOATING CONTACT - An apparatus includes a flexible circuit cable to transport an electrical signal. The apparatus includes a mechanically floating contact integrated into the flexible circuit cable to facilitate connection of the electrical signal between a circuit and the flexible circuit cable. | 12-18-2014 |
20150010271 | INTEGRATED SUB-WAVELENGTH GRATING SYSTEM - An integrated grating element system includes a first transparent layer formed on an optoelectronic substrate layer which includes at least two optoelectronic components, a first grating layer disposed on the first transparent layer which includes at least two sub-wavelength grating elements formed therein aligned with active regions of the optoelectronic components, and a second grating layer placed at a distance from the first grating layer such that light propagates between a diffraction grating element formed within the second grating layer and the at least two sub-wavelength grating elements. | 01-08-2015 |
20150063750 | OPTICAL CONNECTORS - An optical connector includes a first optical fiber and a second optical fiber. A first planar lens is positioned to operate on light exiting the first optical fiber to create a predetermined change in a wave front of the light. A second planar lens is positioned to accept the light from the first planar lens, the second planar lens focusing the light onto the second optical fiber. The first planar lens and second planar lens each include a regularly spaced array of posts with periodically varying diameters. | 03-05-2015 |