Patents Assigned to Finisar Corporation
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Patent number: 10079644Abstract: An out-of-band (OOB) signal detector is disclosed. The OOB signal detector may include a first node configured to receive an alternating current (AC) portion and a direct current (DC) portion of an electrical signal. The AC portion may include modulated OOB data carried by the electrical signal. The OOB signal detector may also include a current to voltage processing circuit configured to extract the AC portion of the electrical signal. The OOB signal detector may additionally include a limiting amplifier circuit configured to receive the extracted AC portion and to generate an amplified signal based on the extracted AC portion. The OOB signal detector may further include an analog-to-digital convertor circuit configured to sample the amplified signal and to generate a digital sample that represents the modulated OOB data.Type: GrantFiled: August 10, 2016Date of Patent: September 18, 2018Assignee: FINISAR CORPORATIONInventors: Andrew Zocher, Theron Jones, Lucy Hosking
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Publication number: 20180262294Abstract: An optical network element for a hardware configured optical network includes a first optical port that receives an input optical signal comprising receive control information from the hardware configured optical network. A demodulator optically coupled to the first optical port decodes the receive control information for configuring the optical network element. A modulator having an electrical modulation input that receives transmit control information imparts a modulation onto an optical carrier thereby generating a transmit optical control signal representing the transmit control information. A second optical port transmits the transmit optical control signal representing the transmit control information to the hardware configured optical network.Type: ApplicationFiled: May 8, 2018Publication date: September 13, 2018Applicant: Finisar CorporationInventor: John DeAndrea
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Patent number: 10067303Abstract: A transceiver system may include a laser and a silicon optical grating. The laser may be configured to emit a laser beam at an output of the laser. The laser beam may have a non-circular elliptical mode profile. The silicon grating may be configured to exhibit a mode profile having a shape corresponding to the non-circular elliptical mode profile of the laser beam.Type: GrantFiled: January 17, 2017Date of Patent: September 4, 2018Assignee: FINISAR CORPORATIONInventors: Jianxiao Chen, Xiaojie Xu, Bernd Huebner
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Publication number: 20180246325Abstract: A holographic display image projector system including an input light source for generating an at least partially coherent optical input beam and an imaging system for transforming an image representation in the Fourier domain into a corresponding holographic image in the spatial domain. The image projector includes a spatial light modulator having a reflective phase manipulating surface and being responsive to an electric control signal to generate a two-dimensional phase profile on the reflective phase manipulation surface to diffract the optical input beam into a diffracted beam having a plurality of diffraction components angularly separated in a first dimension. A coupling prism having a first surface positioned such that a first subset of the diffraction components is refracted through the first surface to the imaging system, wherein upon refraction, an angular separation of the first subset of diffraction components is increased by at least a factor of 2.Type: ApplicationFiled: August 22, 2016Publication date: August 30, 2018Applicant: Finisar CorporationInventor: Steven James Frisken
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Patent number: 10063032Abstract: A distributed reflector (DR) laser may include a distributed feedback (DFB) region and a distributed Bragg reflector (DBR). The DFB region may have a length in a range from 30 micrometers (?m) to 100 ?m and may include a DFB grating with a first kappa in a range from 100 cm?1 to 150 cm?1. The DBR region may be coupled end to end with the DFB region and may have a length in a range from 30-300 ?m. The DBR region may include a DBR grating with a second kappa in a range from 150 cm?1 to 200 cm?1. The DR laser may additionally include a lasing mode and a p-p resonance frequency. The lasing mode may be at a long wavelength side of a peak of a DBR reflection profile of the DBR region. The p-p resonance frequency may be less than or equal to 70 GHz.Type: GrantFiled: March 6, 2017Date of Patent: August 28, 2018Assignee: FINISAR CORPORATIONInventor: Yasuhiro Matsui
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Patent number: 10037815Abstract: An embodiment includes an analog-to-digital converter device. A device may include a first track and hold amplifier configured to receive an analog input signal. The device may also include a plurality of paths coupled to an output of the first track and hold amplifier. Each path of the plurality of paths includes a second track and hold amplifier coupled to the first track and hold amplifier, and a successive approximation register analog-to-digital converter coupled to an output of the second track and hold amplifier. The successive-approximation analog-to-digital converter may include heterojunction bipolar transistors, a comparator, R-2R DAC, and a SiGe BiCMOS quasi-CML SAR register and sequencer.Type: GrantFiled: May 22, 2017Date of Patent: July 31, 2018Assignee: Finisar CorporationInventors: Sorin Petre Voinigescu, Konstantinos Vasilakopoulos, Eran Socher
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Patent number: 10036861Abstract: In one embodiment, an optoelectronic assembly may include at least one transmitter or at least one receiver, a sleeve, a housing, a fiber stub, and a receptacle. The sleeve may define a sleeve opening sized and shaped to receive an optically transmissive portion of an optical fiber. The housing may define a housing cavity at least partially enclosing the transmitter or the receiver. The housing may include a lens port defining a lens port opening. The fiber stub may be positioned at least partially in the sleeve opening and the lens port opening. The receptacle may define a receptacle opening. The lens port, the sleeve and the fiber stub may be positioned at least partially in the receptacle opening.Type: GrantFiled: June 1, 2017Date of Patent: July 31, 2018Assignee: Finisar CorporationInventors: Frank Lei Ding, Maziar Amirkiai, Tao Wu, Hongyu Deng, Wendy Lau Pei Fen
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Publication number: 20180198531Abstract: A method and apparatus for characterizing and compensating optical impairments in an optical transmitter includes operating an optical transmitter comprising a first and second parent MZ, each comprising a plurality of child MZ modulators that are biased at respective initial operating points. An electro-optic RF transfer function is generated for each of the plurality of child MZ modulators. Curve fitting parameters are determined for each of the plurality of electro-optic RF transfer functions and operating points of each child MZ modulator are determined using the curve fitting parameters. An IQ power imbalance is determined using the curve fitting parameters. Initial RF drive power levels are determined that compensate for the determined IQ power imbalance. The XY power imbalance is determined for initial RF drive power levels using the curve fitting parameters.Type: ApplicationFiled: March 7, 2018Publication date: July 12, 2018Applicant: Finisar CorporationInventors: Suhas P. Bhandare, Heider N. Ereifej, Ihab E. Khalouf, Mark Colyar
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Publication number: 20180195905Abstract: Described herein is a system and method of controlling an optical heterodyne measurement system (1). The measurement system (1) has a tunable laser (9) for generating a local oscillator signal, an optical input (5) for receiving an input optical signal (7) and a mixing module (13) for mixing the local oscillator signal with the input optical signal to generate an output optical measurement signal. One embodiment provides a method including the steps of: a) receiving an input electrical drive signal for driving the tunable laser (9) to produce a laser output having a spectral linewidth and peak central frequency; b) coupling the input electrical drive signal with an electrical linewidth control signal (54) to selectively broaden the spectral linewidth; and c) during a measurement period, selectively tuning the central frequency of the laser in a stepwise manner across a predetermined frequency spectrum at predefined tuning increments.Type: ApplicationFiled: July 25, 2016Publication date: July 12, 2018Applicant: Finisar CorporationInventors: Simon Poole, Cibby Pulikkaseril, Qing Li, Nikhil Cunha, Harold Rosenfeldt
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Patent number: 10009195Abstract: An equalizer and method is implemented to improve the performance of a communication system based on multi-level amplitude modulation schemes. The equalizer may include a linear equalization circuit including a plurality of time delayed taps and configured to receive an input signal and generate an output signal. The equalizer may further include a nonlinear circuit configured to receive signals from at least a portion of the time delayed taps and generate at least a portion of a difference between the signals, the output signal based at least in part on the difference.Type: GrantFiled: June 16, 2017Date of Patent: June 26, 2018Assignee: Finisar CorporationInventors: Thang Pham, Chengpin Yu
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Patent number: 10007063Abstract: In an example embodiment, a WDM array includes an optical filter, N common ports, N reflection ports, and N pass ports. The N common ports may be positioned to a first side of the optical filter. N may be greater than or equal to two. The N reflection ports may be positioned to the first side of the optical filter. The N pass ports may be positioned to a second side of the optical filter opposite the first side.Type: GrantFiled: February 8, 2017Date of Patent: June 26, 2018Assignee: FINISAR CORPORATIONInventors: Xiaolin Chen, Xucheng Wang, Fan Chen, Steven James Frisken
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Patent number: 10009112Abstract: A method of reducing electromagnetic interference in a multi-channel transmitter is described. The method may include receiving multiple signals configured to be transmitted through multiple channels. The method may additionally include adjusting delays of the multiple signals to generate multiple delayed signals. Each two adjacent delayed signals may be configured to have a corresponding phase difference that satisfies a phase delay requirement. The method may additionally include generating multiple load signals from the multiple delayed signals.Type: GrantFiled: December 28, 2015Date of Patent: June 26, 2018Assignee: FINISAR CORPORATIONInventor: Yongshan Zhang
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Patent number: 10001599Abstract: In an example, a photonic system includes a Si PIC with a Si substrate, a SiO2 box formed on the Si substrate, a first layer, and a second layer. The first layer is formed above the SiO2 box and includes a SiN waveguide with a coupler portion at a first end and a tapered end opposite the first end. The second layer is formed above the SiO2 box and vertically displaced above or below the first layer. The second layer includes a Si waveguide with a tapered end aligned in two orthogonal directions with the coupler portion of the SiN waveguide such that the tapered end of the Si waveguide overlaps in the two orthogonal directions and is parallel to the coupler portion of the SiN waveguide. The tapered end of the SiN waveguide is configured to be adiabatically coupled to a coupler portion of an interposer waveguide.Type: GrantFiled: November 11, 2015Date of Patent: June 19, 2018Assignee: FINISAR CORPORATIONInventors: Bryan Park, Daniel Mahgerefteh
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Patent number: 9995941Abstract: An example demultiplexer may include at least one dispersive element that is common to multiple wavelength channels. The demultiplexer may additionally include multiple field lenses positioned optically downstream from the at least one dispersive element, where a number of the field lenses is equal to a number of the wavelength channels. An example multiplexer may include a single piece power monitor assembly that includes a collimator lens array, a focusing lens array, and a slot integrally formed therein. The collimator lens array may be positioned to receive multiple wavelength channels from a laser array. The focusing lens array may be positioned to focus multiple portions of the wavelength channels onto an array of photodetectors. The slot may be configured to tap the portions from the wavelength channels collimated into the single piece power monitor assembly by the collimator lens array and to direct the portions toward the focusing lens array.Type: GrantFiled: July 25, 2017Date of Patent: June 12, 2018Assignee: FINISAR CORPORATIONInventors: Sascha Hallstein, Cindy Hsieh, Brendan Hamel-Bissell
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Patent number: 9995890Abstract: Thermal management of a locker etalon in a transmitter optical subassembly (TOSA). In one example embodiment, a TOSA includes a case, a laser positioned within the case and electro-thermally connected to the case, a locker etalon positioned in the case and thermally connected to the case, and a thermoelectric cooler (TEC) positioned within the case and in thermal contact with both the laser and the locker etalon.Type: GrantFiled: September 27, 2011Date of Patent: June 12, 2018Assignee: FINISAR CORPORATIONInventors: Saeid Azemati, Farhang Sakhitab, Jamie Lars Silva
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Patent number: 9998254Abstract: An optical network element for a hardware configured optical network includes a first optical port that receives an input optical signal comprising receive control information from the hardware configured optical network. A demodulator optically coupled to the first optical port decodes the receive control information for configuring the optical network element. A modulator having an electrical modulation input that receives transmit control information imparts a modulation onto an optical carrier thereby generating a transmit optical control signal representing the transmit control information. A second optical port transmits the transmit optical control signal representing the transmit control information to the hardware configured optical network.Type: GrantFiled: May 20, 2015Date of Patent: June 12, 2018Assignee: Finisar CorporationInventor: John DeAndrea
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Patent number: 9997892Abstract: A semiconductor structure configured for use in a VCSEL or RCLED. The semiconductor structure includes an oxidizing layer constructed from materials that can be oxidized during a lithographic process so as to create an oxide aperture. The semiconductor structure further includes a number of layers near the oxidizing layer. A passivation material is disposed on the layers near the oxidizing layer. The passivation material is configured to inhibit oxidation of the layers.Type: GrantFiled: August 25, 2014Date of Patent: June 12, 2018Assignee: FINISAR CORPORATIONInventor: Ralph H. Johnson
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Patent number: 9998234Abstract: An optical receiver is disclosed having a dielectric non-conductive substrate. A ground plane is positioned on the dielectric non-conductive substrate. An optical signal converting photodiode is also positioned on the dielectric non-conductive substrate, and has an optical signal receiver and an electrical signal output. An electrical signal amplifier is provided having an input connected to the electrical signal output of the optical signal converting photodiode. A first opening is positioned in the ground plane and surrounds the optical signal converting photodiode. The first opening has a resonance frequency higher than a fundamental frequency such that crosstalk is reducible at the input of the electrical signal amplifier.Type: GrantFiled: March 7, 2014Date of Patent: June 12, 2018Assignee: FINISAR CORPORATIONInventors: Andrei Kaikkonen, Lennart Per Olof Lundqvist, Lars-Goete Svensson, Peter Lindberg
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Patent number: 9995892Abstract: An optical assembly may include a platform disposed within a housing that has a limited space. The platform may be tilted by a first angle to fit a fiber array into the limited space of the housing. The optical assembly may also include a silicon photonics device mounted on the tilted platform. The silicon photonics device may include a grating coupler. The optical assembly may also include the fiber array directly coupled to the grating coupler on the silicon photonics device at a coupling position that deviates from a vertical coupling position by a second angle.Type: GrantFiled: June 1, 2017Date of Patent: June 12, 2018Assignee: Finisar CorporationInventor: Xiaojie Xu
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Patent number: 9995886Abstract: An embodiment includes a cable connector that includes a connector housing, a fiber support structure, and a latch structure. The connector housing defines a housing cavity. The fiber support structure is attached to the connector housing and extends therefrom in a first direction. The fiber support structure defines a fiber cavity configured to receive a fiber subassembly. The latch structure is attached to the connector housing at a first end and extends therefrom in the first direction. The latch structure is separated in a second direction from the fiber support structure and includes a ramped surface at a second end. The ramped surface displaces the latch structure in a direction opposite the second direction in response to a force in a direction opposite the first direction and does not include a release structure configured to disengage the latch structure from latch tabs of a communication module.Type: GrantFiled: February 26, 2016Date of Patent: June 12, 2018Assignee: FINISAR CORPORATIONInventors: William H. Wang, Yandong Mao, Shamei Shi, Zhongrui Shen