Including Optical Fiber Or Waveguide Patents (Class 398/139)
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Patent number: 8337096Abstract: An apparatus comprising a carrier comprising at least one heat-generating component and a thermoelectric cooler (TEC) coupled to a surface of the carrier, wherein the cross-sectional area of the TEC is less than the cross-sectional area of the carrier, and wherein the TEC is aligned with the heat-generating component. Included is an apparatus comprising a carrier comprising a plurality of optical transmitters and an active component, at least one TEC coupled to the surface of the carrier, and a support post coupled to the surface of the carrier, wherein the support post has a higher thermal resistivity than the TEC, wherein the cross-sectional area of the TEC is less than the cross-sectional area of the carrier, and wherein the TEC is aligned with the optical transmitters, the active component, or both.Type: GrantFiled: November 30, 2009Date of Patent: December 25, 2012Assignee: Futurewei Technologies, Inc.Inventors: Xiao A. Shen, Hongbing Lei, Yu Sheng Bai
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Patent number: 8340528Abstract: An optical transceiver for detecting an incoming light beam and for transmitting an outgoing light beam along a common optical axis is provided. Such an optical transceiver provides a compact optical transceiver that is suitable for a wide variety of applications.Type: GrantFiled: November 8, 2010Date of Patent: December 25, 2012Assignee: Finisar CorporationInventors: Jimmy A. Tatum, James K. Guenter
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Patent number: 8340481Abstract: An optical bus. Optical sub-assemblies are used to connect lengths of optical fiber to form a single optical fiber that is a bus. A master transceiver may be connected to one end of the fiber and nodes can be connected to the optical sub-assemblies. Each optical sub-assembly includes a center fiber with a mirror that enables each connector to reflect optical signals out of the fiber and that enables a node to launch optical signals on the optical bus. The optical bus can also be connected with a second transceiver that may be used to deliver optical power to the attached nodes. Some nodes include two optical subassemblies to enable bidirectional communication on the optical bus.Type: GrantFiled: September 2, 2011Date of Patent: December 25, 2012Assignee: Finisar CorporationInventor: Frank Levinson
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Patent number: 8335410Abstract: An opto-electric hybrid module capable of shortening the distance between a light-emitting section or a light-receiving section of a semiconductor chip and a reflecting surface formed in a core to reduce optical losses between an opto-electric conversion substrate section and an optical waveguide section, and a method of manufacturing the same. A recessed portion (3a) is formed in a surface of an over cladding layer (3) of the optical waveguide section (W1). At least part of the light-emitting section (7a) or the light-receiving section of the semiconductor chip (7) for opto-electric conversion and at least part of a loop portion (8a) of a bonding wire (8) in the opto-electric conversion substrate section (E1) are positioned within the recessed portion (3a). This brings the light-emitting section (7a) or the light-receiving section of the semiconductor chip (7) and the reflecting surface (2a) formed in the core (2) closer to each other.Type: GrantFiled: September 10, 2010Date of Patent: December 18, 2012Assignee: Nitto Denko CorporationInventors: Hajime Nishio, Masayuki Hodono
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Patent number: 8326160Abstract: A dispersion compensation device includes: an optical branching unit to branch an optical signal to be received; a first dispersion compensator to perform dispersion compensation on one part of the optical signal branched by the optical branching unit with a variable compensation amount; a second dispersion compensator to perform dispersion compensation on another part of the optical signal branched by the optical branching unit; a monitoring unit to monitor the communication quality of an output optical signal of the second dispersion compensator; and a controlling unit to determine the direction of variation in chromatic dispersion of the optical signal based on the direction of variation in communication quality monitored by the monitoring unit and control the compensation amount of the first dispersion compensator based on the result of the determination.Type: GrantFiled: November 22, 2010Date of Patent: December 4, 2012Assignee: Fujitsu LimitedInventors: Makoto Murakami, Toshihiro Ohtani
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Patent number: 8306375Abstract: A first exemplary aspect of the present invention is a wavelength-tunable optical transmitter including: a semiconductor substrate (101); a wavelength-tunable light source that is formed on the semiconductor substrate (101) and includes at least a first reflector (102) of a wavelength-tunable type and a gain region (104); a semiconductor optical modulator formed on the semiconductor substrate (101); a first semiconductor optical waveguide (105c) that is formed on the semiconductor substrate (101) and smoothly connected to the wavelength-tunable light source; a second semiconductor optical waveguide (105d) that is formed on the semiconductor substrate and smoothly connected to the semiconductor optical modulator; a waveguide coupling region (108) in which the first and second semiconductor optical waveguides are collinearly coupled with a length LC that is not equal to m/2 (m: integer) times a complete coupling length LC0; and a second reflector (113) formed at an end of the waveguide coupling region (108).Type: GrantFiled: March 27, 2009Date of Patent: November 6, 2012Assignee: NEC CorporationInventor: Tomoaki Kato
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Patent number: 8299361Abstract: A method for implementing audio connector interface conversion is provided in an embodiment of the present invention. The method includes installing a 4-pin jack of an audio connector inside a terminal device, and connecting the power end, signal end, and grounding end of an infrared interface on the terminal service control unit and the serial signal transmitting end, serial signal receiving end, power end, and grounding end on the terminal service control unit directly or through a logical circuit unit to the four connecting ends on the jack of the audio connector. In the technical scheme provided in an embodiment of the present invention, control and switching can be performed on the basis of the working mode, so that the electronic terminal device with an audio interface can use its audio interface to provide an infrared signal interface and a serial communication port.Type: GrantFiled: September 10, 2010Date of Patent: October 30, 2012Assignee: Huawei Technologies Co., Ltd.Inventors: Bogui Ye, Yunsong Fan
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Patent number: 8292518Abstract: One embodiment includes communications module having a release slide and a boot. The release slide includes a main body, a plurality of arms, and a plurality of coupling structures. The arms extend from a first end of the main body. The coupling structures extend from a second end of the main body opposite the first end. The boot is disposed over the coupling structures of the release slide and defines a cavity configured to slidably receive a communications cable.Type: GrantFiled: February 13, 2012Date of Patent: October 23, 2012Assignee: Finisar CorporationInventors: Chris K. Togami, Tat Ming Teo, Frank J. Flens
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Publication number: 20120263466Abstract: Systems and methods are disclosed with a spatial-domain-based multi-dimensional coded-modulation scheme that improves dramatically OSNR sensitivity and tolerance to fiber nonlinearities by using D-dimensional signal constellations, where D=2(2+M)N. The factor 2 originates from two polarizations, 2+M electrical basis functions are selected (2 in-phase/quadrature channels and M pulse-position like basis functions), and N represents the number of orbital angular momentum (OAM) states used in FMFs/MMFs. For single mode fiber applications N is 1.Type: ApplicationFiled: April 6, 2012Publication date: October 18, 2012Applicant: NEC LABORATORIES AMERICA, INC.Inventors: Ivan B. Djordjevic, Lei Xu, Ting Wang
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Publication number: 20120251105Abstract: A method and an apparatus are provided for launching light into an entrance facet of a MMF of an optical MMF link in a way that excites one or more targeted higher-order mode groups in the MMF. The light is launched into the entrance facet of the MMF as a line of phase-modulated spots, referred to herein as a “line launch”. The line launch causes one or more targeted higher-order mode groups to be excited in the MMF. The use of the line launch to excite one or more higher-order mode groups in the MMF increases the bandwidth of the link and allows overall link lengths to be increased. In addition, the use of the line launch is reliable and robust despite defects in the MMF and despite connector offsets. Thus, the use of the line launch ensures that a sufficient increase in link bandwidth will be achieved despite the existence of defects in the MMF and even if there is some amount of optical misalignment due to the connector being offset relative to the corresponding receptacle.Type: ApplicationFiled: March 19, 2010Publication date: October 4, 2012Applicant: CAMBRIDGE ENTERPRISE LIMITEDInventors: Chi Hang Kwok, Ian Hugh White, Richard Vincent Penty, David George Cunningham
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Patent number: 8280203Abstract: A parallel optical communications device is provided that has an OSA that includes at least one heat dissipation block having a slot formed in a lower surface thereof that contains a weldable insert. Likewise, an upper surface of the mounting device of the ESA has at least one slot formed therein that contains a weldable insert. After the OSA is placed in contact with the ESA and optically aligned with the ESA, the OSA is secured to the upper surface of the mounting device of the ESA by welding together the respective weldable inserts contained in the respective slots in the OSA and in the mounting device of the ESA. The welding process results in an extremely strong welded joint between the OSA and the ESA that prevents relative movement between the OSA and the ESA if external forces that are exerted on the OSA and/or on the ESA.Type: GrantFiled: July 7, 2009Date of Patent: October 2, 2012Assignee: Avago Technologies Fiber IP (Singapore) Pte. LtdInventors: David J. K. Meadowcroft, Hui Xu, Ye Chen, Ron Kaneshiro
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Patent number: 8272790Abstract: A cable connector assembly for outdoor connection to transceivers. Electrical connection between a component of the cable connector assembly and a connector inside an electronic assembly to which the cable connector assembly is attached is made through a force generated by a biasing member within the cable connector assembly. The biasing member may generate the force as the cable connector assembly is attached to an adapter. Once the cable connector assembly is disengaged from the adapter, the force is released, allowing easy removal of the cable connector assembly, without the need to release a latch. In an environmentally sealed connector in which access to a release mechanism may be restricted, such a structure provides ease of use for either electrical or optical connectors.Type: GrantFiled: November 24, 2009Date of Patent: September 25, 2012Assignees: Amphenol Fiber Optics, Amphenol CorporationInventors: Michael Belsan, Anh Ngoc Nguyen, Darijus Baltrukonis
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Publication number: 20120237223Abstract: An optical transceiver capable of narrowing an extra space for an external optical fiber is disclosed. The optical transceiver of an embodiment provides an optical receptacle with a port, to which the external optical fiber is to be inserted, headed for a direction in diagonal to the longitudinal axis of the optical transceiver. In another embodiment, the optical transceiver provides an optical receptacle capable of turning the port thereof.Type: ApplicationFiled: March 28, 2012Publication date: September 20, 2012Applicants: SUMITOMO ELECTRIC DEVICE INNOVATIONS, INC., SUMITOMO ELECTRIC INDUSTRIES, LTD.Inventors: Takashi MATSUI, Hiromi KURASHIMA, Kazushige OKI, Naoyuki FUKUSHIMA, Kenichiro UCHIDA
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Patent number: 8265487Abstract: A half-duplex, single-fiber (S-F) optical transceiver module is provided in which a light source, such as a laser diode or a light-emitting diode (LED), is mounted on an edge region of a photodiode to increase the amount of surface area of the photodiode that is available for absorbing light received in the optical transceiver module. The S-F optical transceiver module has a relatively simple optical coupling system for coupling light between an end face of an optical fiber and the photodiode and laser diode or LED with high optical coupling efficiency and reduced optical crosstalk.Type: GrantFiled: July 29, 2009Date of Patent: September 11, 2012Assignee: Avago Technologies Fiber IP (Singapore) Pte. Ltd.Inventor: Nikolaus W. Schunk
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Patent number: 8265486Abstract: An optical communication module which uses a single optical fiber to enable bidirectional communication or multiplexing communication is provided.Type: GrantFiled: November 12, 2009Date of Patent: September 11, 2012Assignee: Electronics and Telecommunications Research InstituteInventors: Kwon-Seob Lim, Hyun Seo Kang, Jai Sang Koh
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Patent number: 8260148Abstract: A transmitting device includes a housing, a multichannel transmitter optical subassembly, a microcontroller, and a DVI connector. The housing has only one optical port, where the only one optical port is adapted to receive only one optical fiber. The multichannel transmitter optical subassembly is mechanically associated with the housing. The microcontroller is electrically associated with the multichannel transmitter optical subassembly. The DVI connector is mechanically associated with the housing. The transmitting device is adapted to convert at least four electrical TMDS signals into optical paths that are transmittable over the only one optical fiber. A receiving device is similar to the transmitting device, however, in contrast to the transmitting device, the receiving device includes a multichannel receiver optical subassembly, and wherein the receiving device is adapted to convert multiple colored wavelengths into at least four electrical TMDS signals.Type: GrantFiled: September 4, 2008Date of Patent: September 4, 2012Assignee: Stratos International, Inc.Inventors: James Cunneen, Danny E. Holland, Anthony S. Kowalkowski, Luis Torres
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Patent number: 8260132Abstract: Embodiments include methods, apparatus, and systems for cable monitoring. One embodiment includes a method that receives data from an optical transceiver coupled to a cable and a RFID (radio frequency identification) device mounted to the cable. The data from the optical transceiver and RFID device is used to determine an operational status of the cable.Type: GrantFiled: March 26, 2007Date of Patent: September 4, 2012Assignee: Hewlett-Packard Development Company, L.P.Inventor: Jerry G. Aguren
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Patent number: 8260146Abstract: An optical circulator couples optical fibers of dissimilar modes. In one embodiment, an optical circulator couples a single mode first fiber to a multimode second fiber, which is used as an optical input to a telescope. The multimode fiber does not significantly degrade the mode structure of the light form the single mode fiber. In the reverse direction, light received by the telescope is coupled into the multimode second fiber, which the circulator couples to a multimode third fiber.Type: GrantFiled: January 7, 2010Date of Patent: September 4, 2012Assignee: AOptix Technologies, Inc.Inventor: J. Elon Graves
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Patent number: 8251593Abstract: A connector (100) includes an insulative housing (1) having a receiving slot (121) formed therein; a set of contacts (2) retained in the insulative housing; an optical module (3) for transmitting optical data and being movably received in the receiving slot along a front-to-back direction; a resilient member (4) for urging the optical module moving forwardly in the receiving slot; a stopping device (124,125) for orientating the optical module backwardly and sidewardly; a resisting device (75) for orientating the optical module along a height direction of the insulative housing; and a metal shell (7,8) shielding the insulative housing.Type: GrantFiled: April 30, 2010Date of Patent: August 28, 2012Assignee: Hon Hai Precision Ind. Co., Ltd.Inventors: Chi-Nan Liao, Qi-Sheng Zheng, Jia-Yong He
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Patent number: 8251594Abstract: The present relates to pluggable electronic unit with transmission power adjustment capability such as for example small form-factor pluggable transceivers. The pluggable electronic unit with transmission power adjustment capability may comprise a power adjustment unit. By verifying the transmitted power is sufficient or could be reduced, it is possible to regulate transmission power of a transceiver autonomously within the pluggable electronic unit itself.Type: GrantFiled: April 8, 2010Date of Patent: August 28, 2012Inventors: Renaud Lavoie, Eric Dudemaine
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Publication number: 20120213527Abstract: An optoelectronic device for bidirectionally transporting information through glass fibers between logically distributed users and a central station by means of transceivers of said central station. In particular, a set of several glass fibers (32) is connected in an array having a predetermined pitch to a multiple-operation coupling element (36) that is provided with lenses and that guides the downstream and upstream radiations from the glass fibers through a multiple-operation wavelength divider (40) which effects a spatial separation between the downstream and upstream radiations such that said downstream and upstream radiations are imaged on radiation sources (44) and photodetectors (46), respectively, said radiation sources being spatially separated from said photodetectors.Type: ApplicationFiled: September 2, 2010Publication date: August 23, 2012Inventors: Richard Laurentius Duijn, Maurice Martinus De Laat, Gerard Nicolaas Van Den Hoven
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Publication number: 20120213525Abstract: A joint for disposing between a rotatable drum and stationary surface equipment. The joint serves as a channel through which optical data from a well access line may be routed through the rotating drum and to the stationary equipment for processing. The optical data may be routed in a manner that allows for multi-fiber transmissions with one fiber dedicated to uphole transmissions and another dedicated to downhole transmissions. This is achieved through embodiments of the joint in spite of the separate optical channels involved sharing the same central axis to allow for data transfer between moving and stationary joint components.Type: ApplicationFiled: September 17, 2010Publication date: August 23, 2012Inventor: Kalim Ullah
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Patent number: 8244125Abstract: This disclosure relates to detection of optical fiber failure and implementation of protection switching in a passive optical network (PON). A protection switch determines whether there is an optical fiber failure in a fiber link between an OLT and a group of ONTs. In the case of an optical fiber failure, an optical fiber may be physically cut or damaged, causing the optical fiber link to be disabled. A protection switch may detect an optical fiber failure by determining a peak optical power of at least a portion of an upstream optical signal transmitted from one or more ONTs via the optical fiber link. If the peak optical power is less than a threshold value, the protection switch may detect a fiber failure. In response to a detected fiber failure, the protection switch may switch upstream and downstream PON transmissions from a primary optical fiber to a secondary optical fiber.Type: GrantFiled: January 21, 2009Date of Patent: August 14, 2012Assignee: Calix, Inc.Inventors: Mark R. Biegert, Peter O. Lee, David D. Cleary
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Patent number: 8238699Abstract: A semiconductor-based optical transceiver. The optical transceiver includes a post-amplifier that may communicate with an optoelectronic transducer, an electro-optic transducer driver that may communicate with an electro-optic transducer, and a control module that controls the operation of the post-amplifier and electro-optic transducer driver. The control module, the post-amplifier, and the electro-optic transducer driver are integrated in a single integrated circuit (IC) that does not require a printed circuit board for interconnecting these components of the optical transceiver.Type: GrantFiled: March 6, 2006Date of Patent: August 7, 2012Assignee: Finisar CorporationInventor: David Allouche
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Patent number: 8235605Abstract: Disclosed herein are a self-standing parallel plate beam splitter, a method for manufacturing the same, and a laser diode package structure using the same. The self-standing parallel plate beam splitter according to the present invention is easy to manufacture and is applicable to various laser diode packages, thereby enabling easy implementation of a laser diode package that is capable of performing bidirectional communication, a laser diode package having a triplexer function, a laser diode package having a wavelength locking function, and a laser diode package having a front side monitoring function to monitor the operation state of a laser diode chip using some of laser light emitted from the front side of the laser diode chip.Type: GrantFiled: March 18, 2008Date of Patent: August 7, 2012Inventor: Jeong Soo Kim
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Publication number: 20120195597Abstract: Methods and systems for verifying the location of a communication transceiver using quantum communication channels are described. Communications transceivers at different known locations are used having a secure channel therebetween to verify the location of the communication transceiver at a location to be verified using entangled particles transmitted using the quantum communication channels.Type: ApplicationFiled: October 14, 2010Publication date: August 2, 2012Inventor: Robert Anderson Malaney
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Patent number: 8233805Abstract: Simplified laser drivers for closed path digital optical cables and digital optical cables including the simplified laser drivers. The laser driver can include less transistors than conventional laser drivers for optical communication cables. The laser can include a bias source and modulation source. The bias source can have a single constant current bias point for all laser diodes. The modulation current source can have a single temperature coefficient for all laser diodes. The laser driver can exclude, for example, any one of or combination of temperature compensation of the modulation or bias current sources, external programming of the modulation or bias current sources, power control based on output of the laser diode, and/or control based on feedback received from a monitor device or other sensor within the cables.Type: GrantFiled: December 27, 2010Date of Patent: July 31, 2012Assignee: Finisar CorporationInventors: Jimmy A. Tatum, James K. Guenter
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Patent number: 8226305Abstract: A fiber optic connector release mechanism for releasing a transceiver module in a cage permanently mounted on a PCB is disclosed. The release mechanism includes a bail rotating a U-shaped flange through a two stage travel path to urge the bail forward in a slide path on the transceiver module. The release mechanism includes a boss disposed on one of the bail and the arm assembly and a dimple disposed on another of the bail and the arm assembly to secure the bail in a locked position. As the bail moves forward from the locked position, wedge elements at the end of arms extending rearward may contact locking tabs on the cage, forcing the locking tabs outward. As the locking tabs are forced outward, the shoulders of the transceiver module are released, and the transceiver module is free to slide out of the cage.Type: GrantFiled: November 2, 2011Date of Patent: July 24, 2012Assignee: Fourte Design & Development, LLC.Inventors: Raja Maruthu Thirugnanam, Gioni Bianchini, Rob Golden
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Patent number: 8224185Abstract: A USB compatible apparatus for connecting an optical universal serial bus (USB) (or an optical serial bus; OSB) device and an electrical USB device, and a structure of the apparatus are provided. More particularly, a USB compatible apparatus for guaranteeing a connection between an optical USB device for inputting/outputting an optical signal and an electrical USB device for inputting/outputting an electrical signal, for example, signal transmission and reception between an electrical USB device (e.g., an electrical USB memory) and an optical USB device (e.g., a computer) having an optical USB port, and a structure of the USB compatible apparatus (a first exemplary embodiment), and a USB compatible apparatus for guaranteeing signal transmission and reception between an optical USB device (e.g., an optical USB memory) and an electrical USB device (e.g., a portable telephone) having an electrical USB port, and a structure of the USB compatible apparatus (a second exemplary embodiment) are provided.Type: GrantFiled: December 10, 2009Date of Patent: July 17, 2012Assignee: KaistInventors: Min Hyuk Lee, Dong Min Im, Hyo Hoon Park, Tae Woo Lee, Mu Hee Cho, Seong Woon Kim
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Publication number: 20120177380Abstract: A transceiver comprising a plurality of CMOS chips, a first chip comprising optical and optoelectronic devices and at least a second chip comprising electronic devices may be operable to communicate an optical source signal from a semiconductor laser into the first CMOS chip. The optical source signal may be used to generate first optical signals that may be transmitted from the first CMOS chip to optical fibers. Second optical signals may be received from the optical fibers and converted to electrical signals via photodetectors. The optical source signal may be communicated from the semiconductor laser into the CMOS chip via optical fibers in to a top surface and the first optical signals may be communicated out of a top surface of the CMOS chip. The first optical signals may be communicated from the first CMOS chip via optical couplers, which may comprise grating couplers.Type: ApplicationFiled: March 16, 2012Publication date: July 12, 2012Inventors: Peter De Dobbelaere, Thierry Pinguet, Mark Peterson, Mark Harrison
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Publication number: 20120177381Abstract: Methods and systems for a photonic interposer are disclosed and may include receiving one or more continuous wave (CW) optical signals in a silicon photonic interposer from an external optical source, either from an optical source assembly or from optical fibers coupled to the silicon photonic interposer. The received CW optical signals may be processed based on electrical signals received from the electronics die. The modulated optical signals may be received in the silicon photonic interposer from optical fibers coupled to the silicon photonic interposer. Electrical signals may be generated in the silicon photonic interposer based on the received modulated optical signals, and may then be communicated to the electronics die via copper pillars. Optical signals may be communicated into and/or out of the silicon photonic interposer utilizing grating couplers. The electronics die may comprise one or more of: a processor core, a switch core, or router.Type: ApplicationFiled: March 16, 2012Publication date: July 12, 2012Inventors: Peter De Dobbelaere, Greg Young, Mark Peterson
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Patent number: 8206043Abstract: A fiber optic connector release mechanism is disclosed. The mechanism may be used to release a transceiver module housed in a cage that is permanently mounted on a printed circuit board. The release mechanism may include a cam mounted bail that rotates a U-shaped flange through a two stage travel path to urge the bail forward in a slide path on the transceiver module. As the bail begins to move forward, wedge elements at the end of a pair of slide arms extending rearward from the bail may contact locking tabs on the cage, forcing the locking tabs outward. As the locking tabs are forced outward, the shoulders of the transceiver module are released, and the transceiver module is free to slide out of the cage as the operator pulls on the bail.Type: GrantFiled: November 2, 2010Date of Patent: June 26, 2012Assignee: Fourte Design & Development, LLCInventors: Raja Maruthu Thirugnanam, Rob Golden, Gioni Bianchini
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Publication number: 20120155886Abstract: An optical fiber connector includes a circular polarizer, an optical electrical converter, and a transceiving module. The circular polarizer receives external optical signals from an optical fiber and divides the received optical signals into first optical signals and second optical signals. The optical electrical converter converts the first optical signals into first electrical signals. The transceiving module receives third electrical signals from ports of an optical communication device, and includes an optical electrical converting circuit and an electrical optical converting circuit. The optical electrical converting circuit converts the second optical signals into second electrical signals and transmits the second electrical signals to the optical communication device. The electrical optical converting circuit converts the third electrical signals into third optical signals and transmits the third optical signals to the optical fiber.Type: ApplicationFiled: May 26, 2011Publication date: June 21, 2012Applicant: HON HAI PRECISION INDUSTRY CO., LTD.Inventor: CHUN-SHENG LEE
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Publication number: 20120148257Abstract: Disclosed herein is a single wavelength bi-directional optical transceiver for transmitting/receiving optical signals having the same wavelength through an optical communication system. The optical transceiver includes a transmitter including an isolator and converting an external input signal into an optical transmit signal, an optical filter reflecting some of the optical transmit signal and transmitting the other of the optical transmit signal, an optical fiber transmitting the optical transmit signal transmitted by the optical filter to a counterpart optical transceiver, a receiver receiving an optical receive signal from the counterpart optical transceiver via the optical fiber, and a body enclosing a portion of the transmitter, the optical filter, a portion of the optical fiber and a portion of the receiver.Type: ApplicationFiled: July 6, 2011Publication date: June 14, 2012Inventors: Mi Hee HWANG, Dong Jin Shin, Suk Han Yun, Eun Kyo Jung
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Patent number: 8200096Abstract: An optical transceiver which converts a plurality of optical signals input from a first side into electrical signals so as to output the electrical signals to a second side and converts a plurality of electrical signals input from the second side into optical signals so as to output the optical signals to the first side.Type: GrantFiled: December 6, 2007Date of Patent: June 12, 2012Assignee: Opticis Co., Ltd.Inventors: Takemasa Tamanuki, Won-Seok Jung
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Publication number: 20120141132Abstract: Active optical cable assemblies, and systems, methods, and adapter modules and integrated circuits for facilitating communication between a host and a client device over a fiber optic cable are disclosed. In one embodiment, an active optical cable assembly includes a fiber optic cable having at least one optical fiber, a host active circuit, a client active circuit, a host connector, and a client connector. Upon a connection between the host active circuit and a host device, the client termination switch closes to couple the client termination impedance to the ground reference potential. Upon a connection between the client active circuit and a client device, the host termination switch closes to the couple the host termination impedance to the ground reference potential. In another embodiment, a method includes enabling a host termination impedance upon a connection of an active optical cable to a client device.Type: ApplicationFiled: December 5, 2011Publication date: June 7, 2012Inventor: Richard C. Walker
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Publication number: 20120143438Abstract: A vehicle communication system includes a fiber optic assembly and a cable assembly. The fiber optic assembly is configured to couple a controller to a plurality of vehicle components to enable communication of information between the controller and the vehicle components. The cable assembly extends from a vehicle power supply, with each of the vehicle components electrically coupling to a different respective location along the cable assembly to receive power from the vehicle power supply via the cable assembly. A portion of the fiber optic assembly and a portion of the cable assembly are mechanically coupled to each other such that the portion of the fiber optic assembly and the portion of the cable assembly collectively extend along the vehicle.Type: ApplicationFiled: December 1, 2010Publication date: June 7, 2012Applicant: Nissan North America, Inc.Inventor: David HEIDEN
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Patent number: 8186891Abstract: An optoelectronic module for converting and coupling an information-containing electrical signal with an optical fiber including a housing having an electrical input for coupling with an external electrical cable or information system device and for transmitting and receiving information-containing electrical signals over such input, and a fiber optic connector adapted for coupling with an external optical fiber for transmitting and receiving an optical signal; an electro-optic subassembly coupled to the information containing electrical signal and converting it to and/or from a modulated optical signal corresponding to the electrical signal; and parametric storage means disposed in said housing for storing environmental and/or operational data associated with the module, and an optional method for time-biased lossy compression of such stored data.Type: GrantFiled: May 8, 2009Date of Patent: May 29, 2012Assignee: Emcore CorporationInventor: Clay E. Hudgins
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Patent number: 8186892Abstract: Optical subassemblies including integral thermoelectric cooler (TEC) drivers. In one example embodiment, an optical subassembly includes a thermoelectric cooler (TEC) driver, a first substrate to which the TEC driver is structurally mounted, a second substrate, a laser temperature sensor structurally mounted on the second substrate, a TEC thermally coupled to the second substrate, and a thermal resistance mechanism including a thermally insulating material. The laser temperature sensor is structurally coupled directly between a laser and the second substrate with the laser being in direct contact with the laser temperature sensor.Type: GrantFiled: November 15, 2010Date of Patent: May 29, 2012Assignee: Finisar CorporationInventors: Lucy G. Hosking, Henry Daghighian
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Patent number: 8190030Abstract: A single-aperture, multi-axial transceiver is provided that is particularly useful in a LIDAR system for detecting low velocities at increased ranges. The system is particularly useful in systems that are required to measure very low velocities and very short distances as well as to provide an operating range of hundreds of meters. The transceiver uses closely spaced waveguides placed near the focal point of a single objective 8 to form input and detector apertures. Preferably the input and detector apertures are spaced from each other by less than about 80 ?m. In an embodiment using light with a wavelength of 1550 nm, the spacing is preferably about 30 ?m.Type: GrantFiled: November 13, 2006Date of Patent: May 29, 2012Assignee: Optical Air Data Systems, LLCInventors: Lance Richard Leclair, Priyavadan Mamidipudi
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Patent number: 8184970Abstract: Exemplary embodiments of the invention relate to an analyzer device configured to interface with an optical transceiver module having a diagnostic communications port, wherein the port is configured to access diagnostic and other data contained within the transceiver controller via a backdoor interface. Controller data, including operational parameter values and module setup values, is accessible while the transceiver operates in conjunction with an external host and may be retrieved, and sometimes modified, in real time without interrupting normal transceiver operation or suspending the transmission of data over optical fibers. The analyzer device accesses the data via the diagnostic communications port on the outside of the transceiver module.Type: GrantFiled: July 31, 2008Date of Patent: May 22, 2012Assignee: Finisar CorporationInventor: Lucy G. Hosking
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Patent number: 8184985Abstract: A control circuit for an optical transmitter/receiver that transmits/receives an optical signal, comprises: a memory having a digital value storage area and an area that stores limit values; a register; an analog/digital conversion circuit that receives analog signals indicating operating parameters of the optical transmitter/receiver, converts the analog signals to respective digital values, and stores the digital values in the memory; a comparison logical circuit that compares the digital values with the limit values, generates flag values, and stores the flag values in the register; and an outside interface that allows an outside host apparatus to access the memory and the register to read the flag values and monitor an operating condition of the optical transmitter/receiver from outside.Type: GrantFiled: September 8, 2008Date of Patent: May 22, 2012Assignee: Mitsubishi Electric CorporationInventors: Harufusa Kondo, Tetsuhiro Fukao, Mutsumi Nakamaru
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Patent number: 8175462Abstract: A fiber optic transceiver (FOT) module is provided that has a circuit board attached to the FOT leadframe. The circuit board, which is typically a printed circuit board (PCB), provides several advantages over typical FOT module designs in that it provides additional surface area for mounting additional components, enables components to be moved from the motherboard into the module, allows the I/O pin count of the FOT module to be increased without increasing the width or footprint associated with the module, allows bond wires to be shortened, provides improved performance over changes in temperature, allows manufacturing yield to be improved, and enables improvements in signal integrity to be realized.Type: GrantFiled: January 7, 2009Date of Patent: May 8, 2012Assignee: Avago Technologies Fiber IP (Singapore) Pte. Ltd.Inventors: Tom Sheau Tong Wong, Tze Wei Lim, Adrianus Van Haasteren
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Patent number: 8167505Abstract: A mechanism to fix the new type of the pluggable optical transceiver to the host system is disclosed. The optical transceiver provides the screws, while, the host system has the face panel with a port and the rail system between which the optical transceiver is set through the port. In the present invention, the screw of the transceiver is fastened to the rail not the face panel, and the rail is precisely aligned with the electrical connector. Thus, the pluggable transceiver in the electrical plug thereof is exactly mated with the electrical connector of the host system.Type: GrantFiled: September 17, 2009Date of Patent: May 1, 2012Assignee: Sumitomo Electric Industries, Ltd.Inventor: Kazushige Oki
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Patent number: 8165471Abstract: According to one example embodiment, a form factor adapter module may include a small form factor (SFF) host connector, an X2 or XENPAK edge finger connector, and a serial to XAUI transceiver. The SFF host connector may be configured receive a small form factor pluggable (SFP or SFP+) module and to transmit and receive data according to a Serial Gigabit Media Independent Interface (SGMII) or Serializer-deserializer Framer Interface (SFI) protocol. The X2 or XENPAK edge finger connector may be configured to mate with an X2 or XENPAK edge finger socket and to transmit and receive data according to a Ten Gigabit Ethernet Attachment Unit Interface (XAUI) protocol. The serial to XAUI transceiver may be coupled to both the SFF host connector and the X2 or XENPAK edge finger connector. The serial to XAUI transceiver may be configured to convert data between the SGMII or SFI protocol and the XAUI protocol.Type: GrantFiled: April 14, 2008Date of Patent: April 24, 2012Assignee: Cisco Technology, Inc.Inventors: James Thomas Theodoras, II, Christophe Metivier, Travis Legg
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Patent number: 8160451Abstract: Pluggable ONU transceiver modules are disclosed that include an optical connector configured to connect to an optical network. The pluggable ONU transceiver modules further includes a transmit line including a laser driver and a laser. The pluggable ONU transceiver modules further includes a first receive line including a first optical receiver and a first post amplifier. The pluggable ONU transceiver modules further includes a second receive line including a second optical receiver and a second post amplifier. The pluggable ONU transceiver modules further includes a combined input/output (I/O) and video contacts electrically coupled to the laser driver, first post amplifier, and second post amplifier.Type: GrantFiled: February 13, 2008Date of Patent: April 17, 2012Assignee: Finisar Corporation, Inc.Inventors: Jinxiang Liu, Tat Ming Teo
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Patent number: 8160452Abstract: An acquisition, pointing and tracking system for free space optical communications systems performs the pointing and tracking function internally by way of translating an internal optical fiber in the focal plane of the transceiver telescope with a reflecting mirror in the telescope focal plane of each linked transceiver. The beam reflected from the mirror records the exact direction of the reflected beam at the transmitting beam's transceiver terminal, providing the transmitting source to lock on to the receiving telescope, allowing for the link to be acquired.Type: GrantFiled: January 7, 2009Date of Patent: April 17, 2012Assignee: Space Photonics, Inc.Inventors: Terry L. Tidwell, Jeffrey T. Gregory, Charles Henry Chalfant, III, Fred J. Orlando, Matthew Leftwich
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Patent number: 8145060Abstract: A passive optical network transceiver includes an avalanche photodiode, a bias voltage generator for supplying a bias voltage to the avalanche photodiode, a temperature detector for measuring the operating temperature of the avalanche photodiode, a memory for storing one reference bias voltage and a processing circuitry to process the value of the measured operating temperature and the reference bias voltage to generate a control signal for controlling the bias voltage generator to adjust the bias voltage supplied by the said bias voltage generator.Type: GrantFiled: May 8, 2009Date of Patent: March 27, 2012Assignee: Emcore CorporationInventors: Eric Hufstedler, Xiaoming Lou, Genzao Zhang, Leonel Gomez, Eva Peral
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Patent number: 8145061Abstract: A bi-direction optical module with an arrangement to reduce the crosstalk noise is disclosed. The optical module comprises a laser diode (LD) driven by a differential signal and a photodiode (PD) on a single package. The PD is mounted on a position where the electrical potential measured from respective interconnections connected to the anode and to the cathode of the LD becomes the midpoint of the interconnections. The capacitances with respect the stem, where the LD and the PD are mounted thereon, viewed from the anode and the cathode of the LD becomes substantially equal to each other, or distances from the PD to respective interconnections are adjusted depending on the length of the interconnection facing the PD. Twisting the interconnections to the LD may be effective to reduce the crosstalk.Type: GrantFiled: January 13, 2009Date of Patent: March 27, 2012Assignee: Sumitomo Electric Industries, Ltd.Inventors: Katsuhisa Tawa, Manabu Shiozaki, Hiromi Kurashima
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Patent number: 8145059Abstract: A topology for optical transceiver components comprises an electrical signal interface stage, a data timing and signal reformatting stage, and an optical fiber interface stage. Unlike transceiver components known in the art, functions having signals with the most jitter are partitioned into the electrical signal interface stage. Data timing functions, for example retiming or clock and data recovery, are included in the data timing and reformatting stage. Output jitter from the data timing and signal reformatting stage is approximately equal to jitter in a clock signal, enabling use of semiconductor components having jitter greater than SONET limits and thereby increasing a value of production yield. Embodiments of the invention are well suited for 40 G transmitters and receivers in nonconnectorized surface mount packages. 40 G transceivers built in accord with the invention are expected to have lower cost, smaller size, and higher production yield than 40 G transceivers known in the art.Type: GrantFiled: February 28, 2008Date of Patent: March 27, 2012Assignee: GTran CorporationInventor: Ruai Yu