Including Compensation Patents (Class 398/136)
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Patent number: 8660434Abstract: A printed circuit board includes a substrate, a signal output circuit formed on the substrate for outputting a clock signal, a shield for covering the signal output circuit, a power supply wiring for connecting the signal output circuit and a power source, and a trap filter provided to the power supply wiring and provided inside the shield, for attenuating a frequency component corresponding to a frequency of clock signal. The trap filter includes a resonance circuit having one portion of the power supply wiring, an inner-layer wiring of the substrate located below the one portion of the power supply wiring, an inner-layer ground wiring of the substrate located below the inner-layer wiring, and a via hole for connecting the one portion of the power supply wiring and the inner-layer wiring.Type: GrantFiled: February 20, 2013Date of Patent: February 25, 2014Assignee: Oclaro Japan, Inc.Inventors: Osamu Kagaya, Koyu Takahashi, Taichi Kogure
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Patent number: 8649690Abstract: A system configured to maintain a consistent local-oscillator-power-to-primary-signal-power ratio (LO/SIG ratio).Type: GrantFiled: May 30, 2012Date of Patent: February 11, 2014Assignee: Cisco Technology, Inc.Inventors: Soren Gehrke, Theodor Kupfer, James Whiteaway
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Patent number: 8611830Abstract: Various embodiments relate to an apparatus that converts between CFP signals and electrical CXP signals. Circuitry compensates for attenuation of a CXP interconnect connected to a CXP transceiver port, and converts between (i) electrical CXP signals of the CXP transceiver port (the electrical CXP signals compliant with the CXP specification), and (ii) CFP signals of the CFP transceiver port (the CFP signals compliant with the CFP specification).Type: GrantFiled: December 15, 2011Date of Patent: December 17, 2013Assignee: Spirent Communications, Inc.Inventors: Gabriel K. Au, Robert D. Yamashita, Kin Ho Tung
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Patent number: 8606111Abstract: The disclosure relates to a fast, stable method of output wavelength control in a DWDM optical device, and a circuit configured to perform the method. The method and circuit can control timing and overshoot during conditions of rapid operational changes, such as during power-on or restart of the device. The method and circuit includes optimized APC, TEC and electro-absorption (EA) modulator control hardware and algorithms, to effectively control transient processes. Software and circuitry based on the method(s) are achieved in part by optimizing APC, EA and TEC control algorithms. In combination with hardware/circuit optimization, one can achieve fast turn-on of an optical output signal at a stable wavelength. The method and circuit provides a stable power-up process in which a change of wavelength is small enough to meet DWDM specification requirements, to ensure the elimination and avoidance of crosstalk in adjacent channels in dense wave (sub)systems.Type: GrantFiled: February 3, 2011Date of Patent: December 10, 2013Assignee: Source Photonics, Inc.Inventors: Zhaoyang Hu, Hucheng Li, Anbin Wang, Meiling Lu
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Patent number: 8582978Abstract: An optoelectronic device having an intelligent transmitter module (“ITM”) includes a mechanism for logging operational information regarding the ITM. The optoelectronic device includes a microcontroller and a persistent memory. The microcontroller is configured to identify the operational information, and write log information representing the operational information to the persistent memory. The operational information may include statistical data about operation, or may include measured parameters. Log entries may be made periodically and/or in response to events. The log may then be evaluated to determine the conditions under which the ITM has historically operated.Type: GrantFiled: January 16, 2008Date of Patent: November 12, 2013Assignee: Finisar CorporationInventors: Luke M. Ekkizogloy, Henry M. Daghighian
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Patent number: 8582974Abstract: An operational optical transceiver configured to update operational firmware using an optical link of the transceiver. The optical transceiver includes at least one processor and a system memory capable of receiving firmware. The optical transceiver receives an optical signal over the optical link containing the update firmware. The optical transceiver then recovers the firmware from the optical signal. Finally, the optical transceiver provides to the system memory the recovered firmware, which when executed by the at least one processor alters the operation of the transceiver.Type: GrantFiled: February 6, 2012Date of Patent: November 12, 2013Assignee: Finisar CorporationInventors: Luke M. Ekkizogloy, Jayne C. Hahin, Lucy G. Hosking, Gerald L. Dybsetter
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Publication number: 20130287394Abstract: An optical communications system and method at least doubles the data rate of the optical fiber link without requiring a redesign of the backplane ASIC. This is made possible in part through the incorporation of at least one gearbox integrated circuit (IC) is incorporated into the system that is compatible with the current ASIC design. The gearbox IC receives N lanes of electrical data signals from the ASIC, with each electrical data signal having a data rate of X Gbps, and outputs N/2 lanes of electrical data signals, with each electrical data signal having a data rate of 2X Gbps. The high-speed optical transceiver module receives the N/2 electrical data signals output from the gearbox IC and produces N/2 respective optical data signals having a data rate of 2X Gbps for transmission over the optical fiber link.Type: ApplicationFiled: April 30, 2012Publication date: October 31, 2013Inventors: Faouzi Chaahoub, Georgios Asmanis, Samir Aboulhouda, Michael A. Robinson
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Patent number: 8571095Abstract: An equalization filter is provided for solving the problem in which there is a limited range in which compensated for distortion of a transmission signal can be made. Measuring instrument 104 measures a distortion quantity which characterizes distortion of the transmission signal. Comparator 105a generates a differential signal which indicates the difference between the transmission signal and a compensation signal. Delay device 105b delays the differential signal based on the distortion quantity measured by measurement instrument 104 and generates the compensation signal.Type: GrantFiled: November 30, 2007Date of Patent: October 29, 2013Assignee: NEC CorporationInventor: Shigeki Wada
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Patent number: 8571422Abstract: A burst transmission method and a receiver resetting method and apparatus in a Passive Optical Network (PON) are provided. A burst receiver resetting method in a PON includes: receiving a preamble sequence and synchronizing data; after synchronizing the data, continuing to receive the data, and matching a Burst Terminator (BT); and resetting a receiver after successfully matching the BT. Meanwhile, an apparatus for implementing the method and a corresponding burst data transmission method are provided. By using the burst receiver resetting method and apparatus in the PON and the corresponding burst transmission method at an Optical Network Unit (ONU) burst transmission end, a Reach Extender (RE) does not need to unpack upstream burst bandwidth allocation information carried in downstream data. Therefore, the complexity of the implementation of the RE is reduced, and the method is simple and effective.Type: GrantFiled: August 16, 2011Date of Patent: October 29, 2013Assignee: Huawei Technologies Co., Ltd.Inventors: Jing Li, Dongning Feng, Dongyu Geng, Frank Effenberger
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Patent number: 8565595Abstract: Method and apparatus for optimizing a decision threshold of an optical receiver is used to solve a problem of affecting system stability and reliability. The method comprises: determining a maximum value and a minimum value of an adjustment range of the decision threshold, and determining an adjustment step of the decision threshold (10); adjusting a decision threshold value within the adjustment range of the decision threshold, and separately detecting pre-FEC BERs corresponding to different decision threshold values (11); and searching for a minimum value in the detected pre-FEC BERs, a decision threshold value corresponding to the minimum value being an optimal decision threshold value (12). The apparatus comprises a decision threshold adjusting unit, a pre-FEC BER detecting unit, a decision threshold control unit and an optimal decision threshold determining unit.Type: GrantFiled: July 24, 2009Date of Patent: October 22, 2013Assignee: ZTE CorporationInventor: Xiao Peng
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Patent number: 8559824Abstract: A parallel optical transceiver module is provided that has a balanced laser driver arrangement. The balanced laser driver arrangement of the invention includes at least two laser diode driver ICs, which preferably are located on opposite sides of a laser diode IC. Each laser diode driver IC drives a subset (e.g., half) of the total number of laser diodes of the laser diode IC. Because each laser diode driver IC drives a subset of the total number of laser diodes of the laser diode IC, the pitch (i.e., distance) between the high-speed signal pathways within the laser diode driver ICs can be increased. Increasing the pitch between the high-speed signal pathways provides several advantages, including, for example, reducing the potential for electrical cross-talk and inductive coupling between adjacent wire bonds that connect the output driver pads on the driver IC to the respective input pads on the laser diode IC.Type: GrantFiled: September 30, 2008Date of Patent: October 15, 2013Assignee: Avago Technologies General IP (Singapore) Pte. Ltd.Inventors: Laurence R. McColloch, Frederick W. Miller
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Patent number: 8543004Abstract: In one aspect, the present invention embraces a wavelength locking method for causing a narrow-band wavelength spectrum of an optical transmit signal of an optical transceiver device to track a narrow-band wavelength spectrum of an optical receive signal received by the optical transceiver device Further, the present invention embraces a wavelength lockable optical transceiver device, especially for a passive optical transmission network, using this wavelength locking method.Type: GrantFiled: December 16, 2011Date of Patent: September 24, 2013Assignee: ADVA Optical Networking SEInventor: Michael Eiselt
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Patent number: 8538273Abstract: A system for exchanging information in an on-chip communication network using optical flow information for communication between Intellectual Property cores. The information is exchanged between a plurality of initiators and targets in the Intellectual Property cores. The system includes a router for propagating optical flow information from the initiators to the targets. Each initiator includes an interface to convert the traffic generated by the initiator and transmit it in the form of an optical flow within the on-chip communication network, and each target includes an interface to convert information from the optical form into the electrical form. The system is organized as a parametric system and includes programming module to define a first set of high level parameters, a second set of initiator network interface parameters and a third set of target network interface parameters.Type: GrantFiled: July 26, 2012Date of Patent: September 17, 2013Assignee: STMicroelectronics s.r.l.Inventors: Alberto Scandurra, Giovanni Strano, Carmelo Pistritto
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Patent number: 8526823Abstract: A method for setting transceiver transmission parameters, in a transceiver having a plurality of components, to achieve the predetermined acceptable end-to-end bit error rate while reducing power consumption. In another aspect the invention relates to an optical transceiver system that uses digital signal processing to process the data stream sent through a fiber optical channel to compensate for transmission, reception and channel impairments to achieve the a predetermined end-to-end bit error rate and to alter its power dissipation to that sufficient to meet said end-to-end bit error rate. In one embodiment the optical transceiver system includes an optical transmitter; an optical receiver comprising an ASIC, FPGA, or other circuitry; and a controller in electrical communication with the optical receiver, wherein the controller controls power to portions of the ASIC so as to reduce power dissipation while meeting the end-to-end bit error rate.Type: GrantFiled: September 28, 2010Date of Patent: September 3, 2013Assignee: Acacia Communications, Inc.Inventors: Eric Swanson, Graeme John Pendock, Bhupendra Shah, Lawrence S. Pellach
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Patent number: 8526825Abstract: Visible light data communication with a sufficient transmission speed is performed using a general-purpose and cost-advantageous blue-light-excitation-type white LED without using a blue color filter while preventing the element from being damaged. When transmission data is inputted to a driving waveform generation unit (110) in a transmitter (100), the driving waveform generation unit (110) and a multi-gray scale driving unit (120) generate a multi-gray scale driving signal, which is supplied to the blue-light-excitation-type white LED (140) and allows the blue-light-excitation-type white LED (140) to emit light. A light signal outputted from the blue-light-excitation-type white LED (140) is collected by a lens or the like, is made incident into a PD (210) in a receiver (200), and is converted to a current signal. The current signal is converted into a voltage signal in a trans-impedance amplifier (212).Type: GrantFiled: September 25, 2009Date of Patent: September 3, 2013Assignee: Taiyo Yuden Co., Ltd.Inventors: Masashi Yamada, Kousuke Nakamura
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Patent number: 8521031Abstract: An optical transceiver module includes a receiving unit, a transmission driving unit, and a terminal control unit. The receiving unit outputs a receiver lost signal. The transmission driving unit includes a positive receiving signal terminal and a negative receiving signal terminal. The terminal control unit is coupled between the positive receiving signal terminal and the negative receiving signal terminal. The terminal control unit controls whether a differential terminator impedance is coupled between the positive receiving signal terminal and the negative receiving signal terminal according to the receiver lost signal.Type: GrantFiled: November 19, 2010Date of Patent: August 27, 2013Assignee: Via Technologies, Inc.Inventors: Jinkuan Tang, Jiin Lai
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Patent number: 8521032Abstract: A media converter to converts digital fiber optic signals to electronic analog signals in the form of voltage doublet and vice-versa. The media converter includes a differential transmit transformer, a transmit stub interface and an optical fiber transmit interface arranged in serial flow communication in a first communication path; and a differential receive transformer, a receive stub interface and an optical fiber receive interface in serial flow communication in a second communication path. The first communication path converts a voltage doublet signal received from the electronic component to a digital optical signal for transmission to a passive optical star via the optical fiber coupler, and the second communication path converts a digital optical signal received from the passive optical star via the optical fiber coupler to an voltage doublet signal for transmission to the electronic component.Type: GrantFiled: April 1, 2010Date of Patent: August 27, 2013Assignee: The Boeing CompanyInventor: Tuong Kien Truong
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Patent number: 8515287Abstract: The optical transmission equipment includes: a demultiplexer for demultiplexing a transmitted wavelength-multiplexed optical signal to first and second optical signals; a first variable dispersion compensation unit; a second variable dispersion compensation unit; a first error detector; a second error detector; and a dispersion compensation control unit for controlling dispersion compensation amounts of the first and second variable dispersion compensation units based on the detection result of the first or second error detector. Upon detection of a signal error in the first optical signal, the first variable dispersion compensation unit is controlled to change from a first compensation amount to a third compensation amount, and the second variable dispersion compensation unit is controlled to change from a second compensation amount to a fourth compensation amount.Type: GrantFiled: June 10, 2008Date of Patent: August 20, 2013Assignee: Hitachi, Ltd.Inventors: Kenichi Ogawa, Kazuhiro Watanabe, Hiroyuki Nakano
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Patent number: 8503884Abstract: A bidirectional optical transceiver is disclosed. In the bidirectional optical transceiver, by implementing, as a stacked structure, an optical bench in which an optical system and an optical-transmitting module are installed and a multi-layer substrate with good thermal, electrical and high-resistance characteristics in which an optical-receiving module and a driving circuit for driving the optical-transmitting module are installed, thermal, electrical or optical crosstalk is prevented, high-speed transmission of transmission signals is possible through high-speed modulation thereof, and miniaturization is achieved.Type: GrantFiled: September 1, 2009Date of Patent: August 6, 2013Assignee: Electronics and Telecommunications Research InstituteInventors: Jong-jin Lee, Hyun-seo Kang, Jai-sang Koh
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Patent number: 8498541Abstract: Exemplary embodiments of the invention relate to an optical transceiver module having a diagnostic communications link, wherein the link 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 data is accessed with an external user device via a backdoor interface on the outside of the transceiver module.Type: GrantFiled: July 31, 2008Date of Patent: July 30, 2013Assignee: Finisar CorporationInventor: Lucy G. Hosking
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Publication number: 20130188964Abstract: A method and system for transparent timing of an Ethernet signal over an optical transport network are disclosed. In one embodiment, a transceiver includes a first clock recovery circuit, a first synchronizer and an asynchronous mapper. The first clock recovery circuit recovers a first clock from a first signal received from an Ethernet network. The first synchronizer multiplies the first clock by a ratio M/N to produce a second clock to time a second signal transmitted over the optical transport network. M and N are integers.Type: ApplicationFiled: January 19, 2012Publication date: July 25, 2013Applicant: Ciena CorporationInventor: Kevin S. MEAGHER
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Publication number: 20130188965Abstract: An optical transceiver includes an optical IC coupled to a processor IC. For transmit, the optical IC can be understood as a transmitter IC including a laser device or array. For receive, the optical IC can be understood as a receiver IC including a photodetector/photodiode device or array. For a transmitter IC, the processor IC includes a driver for a laser of the transmitter IC. The driver includes an equalizer that applies high frequency gain to a signal transmitted with the laser device. For a receiver IC, the processor IC includes a front end circuit to interface with a photodetector of the receiver IC. The front end circuit includes an equalizer that applies high frequency gain to a signal received by the receiver IC. The driver can be configurable to receive a laser having either orientation: ground termination or supply termination.Type: ApplicationFiled: January 22, 2013Publication date: July 25, 2013Inventors: Gil AFRIAT, Lior HORWITZ, Dror LAZAR, Assaf ISSACHAR, Alexander POGREBINSKY, Adee O. RAN, Ehud SHOOR, Roi BAR, Rushdy A. SABA
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Publication number: 20130183041Abstract: A microwave photonics based signal receiving device includes a signal generation module, a first Mach-Zehnder modulator, a dispersion module, a second Mach-Zehnder modulator, and a signal conversion module. The signal receiving device simplifies a structure of the signal receiving device by adopting quadrature demodulation. The signal receiving device demodulates a high-order modulation signal and flexibly adjusts a microwave carrier frequency.Type: ApplicationFiled: March 6, 2013Publication date: July 18, 2013Applicant: Huawei Technology Co., Ltd.Inventor: Huawei Technology Co., Ltd.
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Patent number: 8483565Abstract: A data transport card comprising an interface to receive high speed data streams from at least one client, and a pluggable conversion module which converts said data streams into optical data signals and couples these optical data signals into at least one wavelength division multiplexing channel for transport of said optical data signals via an optical fiber.Type: GrantFiled: August 6, 2010Date of Patent: July 9, 2013Assignee: ADVA Optical Networking SEInventors: Joerg-Peter Elbers, Klaus Grobe
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Publication number: 20130163995Abstract: According to one embodiment, an optical transmitter/receiver circuit device includes a transmitter circuit including a transition time adjusting circuit to obtain a second voltage signal from a first voltage signal and a voltage-current converter circuit that converts the second voltage signal to a first current signal, a light-emitting element to convert the first current signal to an optical signal, a light-receiving element to convert the optical signal to a second current signal, and a receiver circuit including a current-voltage converter circuit that converts the second current signal to a third voltage signal, a pulse generation circuit to generate rise and fall pulse from the third voltage signal and a decoder circuit that generates a fourth voltage signal in synchronism with the pulse.Type: ApplicationFiled: September 5, 2012Publication date: June 27, 2013Inventors: Hiroshi UEMURA, Hideto FURUYAMA
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Patent number: 8463134Abstract: Provided is an apparatus and method for transmitting and receiving data in a visible light communication system, the apparatus including a visible light communication (VLC) transceiver for converting a visible light signal received from a counterpart into an electrical signal and outputting the electrical signal, by using a light receiving device during a reception operation, and converting an electrical signal containing information into a visible light signal and transmitting the visible light signal to the counterpart, by using a light emitting device during a transmission operation, a VLC controller comprising a visible frame engine (VFE) for generating a visible frame and outputting the visible frame to the VLC transceiver, in which the VFE generates the visible frame for transmission to a counterpart during non-transmission of respective frames for communication at a sender and a receiver in order to provide visibility to a communication link, and a host controller for controlling the VLC controller andType: GrantFiled: February 20, 2009Date of Patent: June 11, 2013Assignee: Samsung Electronics Co., LtdInventors: Jeong-Seok Choi, Yun-Je Oh, Dae-Kwang Jung, Hong-Seok Shin, Kyung-Woo Lee, Dong-Jae Shin, Sung-Bum Park
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Patent number: 8447189Abstract: A visible light wireless communication receiver includes: a source code recognizing unit that receives a source bit stream and recognizes the source bit stream as source codes of a unit of a first number of bits; and a line coding unit that encodes each of the source codes into an encoding code of a unit of a second number of bits, the second number being larger than the first number. In particular, in the encoding code, the number of bits corresponding to 1 is the same as the number of bits corresponding to 0. Therefore, the change in brightness of lighting may be minimized in the visible light wireless communication.Type: GrantFiled: September 16, 2010Date of Patent: May 21, 2013Assignee: Electronics and Telecommunications Research InstituteInventors: Dae-Ho Kim, Sang-Kyu Lim, Il-Soon Jang, Tae-Gyu Kang
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Patent number: 8417125Abstract: Methods, systems and other embodiments associated with a laser communication system using a single wavelength are presented. A first data is modulated onto an RF carrier to produce a modulated RF carrier. A laser is intensity modulated using with the modulated RF carrier. The intensity modulated laser beam is transmitted from an interrogator to a modulating retro-reflector (MRR) terminal. A portion of the laser beam is received at a receiver at the MRR terminal. Another portion of the laser is modulated at the MRR terminal with a second data to produce a re-modulated laser beam. The re-modulated laser beam is reflected back to the interrogator.Type: GrantFiled: May 28, 2010Date of Patent: April 9, 2013Assignee: BAE Systems Information and Electronic Systems Integration Inc.Inventors: Naresh Chand, Bruce Eteson, Daniel Taskalos
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Patent number: 8412052Abstract: Self alignment of Optoelectronic (OE) chips, such as photodiode (PD) modules and vertical cavity surface emitting laser (VCSEL) modules, to external waveguides or fiber arrays may be realized by packaging the OE chips directly in the fiber optic connector.Type: GrantFiled: October 22, 2004Date of Patent: April 2, 2013Assignee: Intel CorporationInventor: Edris M. Mohammed
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Patent number: 8412048Abstract: A method and apparatus are present for managing a transmission of photons. The number of parameters for transmitting the photons as a beam in a liquid are identified using a number of characteristics of the liquid to form a number of selected parameters. The photons are transmitted in the liquid as the beam to a target using the number of selected parameters to form the transmission of the photons.Type: GrantFiled: June 25, 2009Date of Patent: April 2, 2013Assignee: The Boeing CompanyInventor: Philip Stephen Dunlap
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Patent number: 8401394Abstract: In a method for transmission of digital data in an optical free-space transmission system in which a binary code sequence produced from the digital data is used to transmit amplitude-modulated light waves across an optical free space between a transmitter and a receiver, according to a first aspect, the binary code sequence is produced such that a modulation frequency of the light waves determined by the binary code sequence has a value of 70 Hertz. According to a second aspect, ‘t’ light waves are modulated with the binary code sequence and binary data are transmitted in blocks during a first time period, and non-modulated light waves are emitted during second time periods, wherein the light intensities of the time periods are selected so that the quantities of light transmitted in two periods correspond to predetermined quantities of light.Type: GrantFiled: February 25, 2009Date of Patent: March 19, 2013Assignee: Siemens AktiengesellschaftInventor: Joachim Walewski
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Patent number: 8401395Abstract: A system comprises a transmitter including a laser configured to generate a laser beam directed at a spot on a surface, and a laser driver connected to the laser and configured to modulate input data onto the laser beam. The system may further comprise a receiver including an optical detector configured to decode received light into raw data, a signal processor configured to decode the raw data into the original input data, and telescope optics configured to receive light reflected from the spot on the surface, collimate the light and converge the light onto the optical detector.Type: GrantFiled: November 16, 2009Date of Patent: March 19, 2013Assignee: Verizon Patent and Licensing Inc.Inventors: Tiejun Xia, Glenn A. Wellbrock
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Patent number: 8396362Abstract: The light transmitting and receiving module includes a light outputting section; alight receiver which receives input light and which outputs an electric signal having an intensity corresponding to a light intensity of the input light; a first variably attenuation controller which variably attenuates the light output from the light outputting section; a second variably attenuation controller which variably attenuates the input light to the light receiver; a first switch which selectively switches a path through which the light from the first variably attenuation controller is output between a light transmitting path and an alternative path different from the light transmitting path; and a second switch which selectively switches light to be output to the second variably attenuation controller between light from an external entity and the light through the alternative path of the first switch.Type: GrantFiled: April 30, 2010Date of Patent: March 12, 2013Assignee: Fujitsu LimitedInventors: Yuichi Nagaki, Tsutomu Aiba
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Patent number: 8385748Abstract: To reduce emission of an unintentional electromagnetic wave even if a frequency of a clock signal being output is high, a printed circuit board (10) includes: a substrate (101); signal output circuits (102 and 103) formed on the substrate (101), for outputting a clock signal; power supply wirings (109 and 110) for connecting the signal output circuits (102 and 103) and a power source; and trap filters (107 and 108) provided to the power supply wirings (109 and 110), for attenuating a frequency component corresponding to a frequency of the clock signal.Type: GrantFiled: November 16, 2009Date of Patent: February 26, 2013Assignee: Oclaro Japan, Inc.Inventors: Osamu Kagaya, Koyu Takahashi, Taichi Kogure
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Patent number: 8382385Abstract: A floating heat sink device is provided that attaches to a cage in a floating configuration that enables the heat sink device to move, or “float”, as the parallel optical communications device secured to the cage moves relative to the cage. Because the heat sink device floats with movement of the parallel optical communications device, at least one surface of the parallel optical communications device maintains continuous contact with at least one surface of the heat sink device at all times. Ensuring that these surfaces are maintained in continuous contact at all times ensures that heat produced by the parallel optical communications device will be transferred into and absorbed by the floating heat sink device.Type: GrantFiled: January 14, 2011Date of Patent: February 26, 2013Assignee: Avago Technologies Fiber IP (Singapore) Pte. LtdInventors: Laurence R. McColloch, Zuowei Shen
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Patent number: 8380076Abstract: An optical transmission system having an optical source, an optical dispersion compensation filter optically connected to the optical source, and a control system. The optical source generates a modulated optical signal having an optical spectrum and a value of dispersion robustness. The optical dispersion compensation filter has at least two cascaded optical resonators and a periodic transfer function rigidly translatable in the frequency spectrum to obtain translation in frequency of the transfer function without a substantial change in shape, and characterized by a free spectral range. The control system acts on the optical dispersion compensation filter in order to rigidly translate the transfer function along the frequency spectrum in first and second positions in the frequency spectrum. The translation of the transfer function between the first and the second positions is smaller than the free spectral range.Type: GrantFiled: December 27, 2006Date of Patent: February 19, 2013Assignee: Google Inc.Inventors: Pierpaolo Boffi, Giorgio Grasso, Lucia Marazzi, Paola Parolari, Aldo Righetti, Marco Romagnoli, Giovanni Tamiri
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Publication number: 20130039648Abstract: According to an embodiment, a semiconductor device includes an analog/digital conversion unit, a pulse width modulation unit outputting a transmission signal, the transmission signal being a pulse pattern corresponding to a digital signal output from the analog/digital conversion unit, a reference signal generation unit generating a reference signal, the reference signal being a fixed pulse pattern. The device includes a first control unit selecting one of the transmission signal and the reference signal, a light emitting element drive unit outputting a drive current based on the transmission signal or the reference signal, a light emitting element driven by the light emitting element drive unit. The device includes an optical receiving unit converting the optical signal into a voltage signal, and a demodulation unit demodulating the voltage signal into a digital signal based on the transmission signal or the reference signal.Type: ApplicationFiled: March 19, 2012Publication date: February 14, 2013Applicant: KABUSHIKI KAISHA TOSHIBAInventor: TOYOAKI UO
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Patent number: 8369714Abstract: A burst optical signal receiving device is provided, which includes an optical receiving component and a limiting amplifying circuit unit. The optical receiving component further includes a photodetector, a trans-impedance amplifier, a first direct current (DC) cancellation forbidding circuit, and a DC bias circuit, and the limiting amplifying circuit unit further includes a group of alternating current (AC) coupling capacitors, a limiting amplifier, and a second DC cancellation forbidding circuit. Through the technical solution, an input burst optical signal within a certain dynamic range can be recovered into a valid burst electric signal in shorter time. The technical solution can be applied in a burst optical signal receiver in a 10-Gigabit Ethernet passive optical network (10GEPON).Type: GrantFiled: August 16, 2010Date of Patent: February 5, 2013Assignee: Superxon (Chengdu) Technology Ltd.Inventor: Ke Dong
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Patent number: 8351794Abstract: A parallel optical transceiver module is provided that has a heat dissipation system that dissipates large amounts of heat, while also protecting the laser diodes, ICs and other components of the module from particulates, such as dust, for example, and from mechanical handling forces. The heat dissipation system is configured to be secured to the optical subassembly (OSA) of the module such that when the OSA is secured to the upper surface of the leadframe of the module, the OSA and the heat dissipation system cooperate to encapsulate at least the laser diodes and laser diode driver IC in a way that protects these components from dust and other particulates and from external mechanical forces. The heat dissipation system of the module is disposed for coupling with an external heat dissipation system, e.g., with a heat dissipation system that is provided by the customer.Type: GrantFiled: March 10, 2009Date of Patent: January 8, 2013Assignee: Avago Technologies Fiber IP (Singapore) Pte. Ltd.Inventors: David Meadowcroft, Debo Adebiyi
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Patent number: 8346094Abstract: A light transmission system has a light transmission module having a light transmission path that transmits a data signal as an optical signal, wherein the light transmission module converts the optical signal transmitted through the light transmission path to an electrical signal and outputs the converted optical signal as a binarization signal, an electrical transmission path that outputs a clock signal as a binarization signal, a reception processing unit that performs a reception process on each of the data signal and the clock signal, and a first delay unit that delays a rise start time of the clock signal with respect to a rise start time of the data signal for the binarization signal. A delay amount of the clock signal by the first delay unit is a time less than or equal to a maximum value of a data dependency jitter (DDJ).Type: GrantFiled: November 18, 2009Date of Patent: January 1, 2013Assignee: OMRON CorporationInventors: Kentaro Hamana, Naru Yasuda, Hayami Hosokawa
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Patent number: 8340525Abstract: A method for stabilizing multi-channel optical signal wavelengths includes the following steps. A first detecting signal is stacked on a plurality of driving signals in sequence. A plurality of optical signals generated after being driven by the plurality of driving signals is combined into one optical total signal. A wavelength detection is performed on the optical total signal. A second detecting signal with a frequency band the same as that of the first detecting signal is extracted from the signals obtained after the wavelength detection. The wavelength of the optical signal in the corresponding channel among the multiple channels is controlled according to the second detecting signal. A device for stabilizing multi-channel optical signal wavelengths is also provided. Using the above method or device, the multi-channel optical signal wavelengths can be stabilized, which requires less elements, and has a simple circuit structure, a high integration level, and a low cost.Type: GrantFiled: April 29, 2009Date of Patent: December 25, 2012Assignee: Huawei Technologies Co., Ltd.Inventors: Yusheng Bai, Naisheng Zhang, Changgui Xiao
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Publication number: 20120308237Abstract: A bi-directional optical transceiver includes multiple single mode optical ports and a multi-mode optical port. A multi-mode optical combiner combines single mode optical signals received at the single mode optical ports into a multi-mode optical signal at the multi-mode optical port. Each single mode optical signal has a distinct optical mode that does not interfere with the optical mode of the other single mode optical signals. A photo detector detects a total optical power of the plurality of single mode optical signals in the multi-mode optical signal. An amplifier is coupled to receive an output of the photo detector.Type: ApplicationFiled: June 1, 2011Publication date: December 6, 2012Applicant: ARRIS Group Inc.Inventors: Venk Mutalik, Marcel F. Schemmann
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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: 8301036Abstract: A decision-feedback equalizer (DFE) can be operated at higher frequencies when parallelization and pre-computation techniques are employed. Disclosed herein is a DFE design that operates at frequencies above 10 GHz, making it feasible to employ decision feedback equalization in optical transceiver modules. An adaptation technique is also disclosed to maximize communications reliability. The adaptation module can be treated as a straightforward extension of the pre-computation unit. At least some method embodiments include, in each time interval: sampling a signal that is partially compensated by a feedback signal; comparing the sampled signal to a set of thresholds to determine multiple speculative decisions; selecting and outputting one of the speculative decisions based on preceding decisions; and updating a counter if the sampled signal falls within a window proximate to a given threshold. Once a predetermined interval has elapsed, the value accumulated by the counter is used to adjust the given threshold.Type: GrantFiled: November 15, 2009Date of Patent: October 30, 2012Assignee: Credo Semiconductor (Hong Kong) LimitedInventor: Runsheng He
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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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Patent number: 8280260Abstract: A transponder having a dynamic remapping circuit remaps a value of decision threshold voltage Vdtc and a value of optical power RXP to a reference voltage Vref to minimize the bit error rate BER of a communication system. The dynamic remapping circuit implements a bilinear mapping of Vdtc and RXP to Vref with three bilinear remapping constants “a”, “b”, and “c” selected to align a remapped value of Vdtc_opt to a selected Vdtc normalization value, Vdtc_norm. A transponder in accord with an embodiment of the invention prevents BER from exceeding a threshold value of BER whether RXP or OSNR, or both, remain constant, change continuously, or change intermittently. Constants “a”, “b”, and “c” are related to parameters resulting from mathematically fitting a line to data comprising Vdtc_opt versus RXP. Another embodiment comprises a method for dynamically optimizing Vdtc and RXP to Vref in a transponder with a bilinear remapping circuit.Type: GrantFiled: December 20, 2011Date of Patent: October 2, 2012Assignee: Gtran CorporationInventors: Xiaoqiang Shou, Kevin Cheng, Ruai Yu
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Publication number: 20120243877Abstract: An optical receiving apparatus with frame synchronization technology which makes it easy to activate a frame synchronization established state even if bit errors are produced over a transmission link. The apparatus includes: an optoelectrical converting circuit; a pre-stage synchronizing word detecting circuit; a decoder; a post-stage frame synchronization detecting circuit; and a receiver frame synchronization display output circuit.Type: ApplicationFiled: March 21, 2012Publication date: September 27, 2012Applicant: NEC CORPORATIONInventor: Tsugio TAKAHASHI
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Patent number: 8270841Abstract: The present invention is directed to realize a stable and highly-efficient quantum communication without being influenced by the jitter of the heralding signal. In regard to the quantum encryption transmitting apparatus 200, the pulse-driven heralded single-photon source 201 generates a photon pair, outputs one photon of the photon pair, and outputs the other photon of the photon pair as a heralding signal. The timing adjuster 202 synchronizes the heralding signal with a clock signal for pulse driving the pulse-driven heralded single-photon source 201, and outputs as a trigger signal. The quantum communication modulating unit 203 implements the signal modulation to a quantum signal, in timing with the trigger signal, and transmits the quantum signal to the quantum encryption receiving apparatus 300 via the quantum communication path 101. The heralding signal transmitting unit 205 transmits the heralding signal to the quantum encryption receiving apparatus 300 via the heralding signal communication path 102.Type: GrantFiled: August 4, 2006Date of Patent: September 18, 2012Assignees: Mitsubishi Electric Corporation, National University Corporation Hokkaido UniversityInventors: Tsuyoshi Nishioka, Shigeki Takeuchi, Alexandre Soujaeff, Toshio Hasegawa, Junnichi Abe
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Patent number: RE44107Abstract: An optical transceiver module includes an optical-to-electrical converter configured to convert a first optical signal to a first electric signal, a first amplifier configured to amplify the first electric signal, a bandwidth controller coupled to the first amplifier, configured to control the frequency response characteristics of the amplification of the first amplifier to produce a first amplified electric signal, a driver circuit configured to receive a second electric signal and to produce a second amplified electric signal in response to the second electric signal and an optical feedback signal, an electrical-to-optical converter coupled to the micro-controller and configured to convert the second amplified electrical signal to a second optical signal, and a photo diode configured to detect the second optical signal and to produce the optical feedback signal to be received by the driver circuit.Type: GrantFiled: December 6, 2010Date of Patent: March 26, 2013Assignee: Source Photonics, Inc.Inventors: Rangchen Yu, Yuanjun Huang, Mingshou He, Bin Wei, Jiang Tian