Patents Assigned to Inphi Corporation
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Patent number: 9948396Abstract: The present invention is directed to data communication system and methods. More specifically, various embodiments of the present invention provide a communication interface that is configured to transfer data at high bandwidth using PAM format(s) over optical communication networks. A feedback mechanism is provided for adjusting the transmission power levels. There are other embodiments as well.Type: GrantFiled: September 29, 2016Date of Patent: April 17, 2018Assignee: INPHI CORPORATIONInventors: Sudeep Bhoja, Chao Xu, Hari Shankar
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Patent number: 9941970Abstract: The present invention is directed to optical communication systems and methods thereof. In various embodiments, the present invention provides method for linearizing Mach Zehnder modulators by digital pre-compensation and adjusting the gain of the driver and/or the modulation index. The pre-compensation can be implemented as a digital pre-compensation algorithm, which is a part of an adaptive feedback loop. There are other embodiments as well.Type: GrantFiled: July 29, 2016Date of Patent: April 10, 2018Assignee: INPHI CORPORATIONInventor: Hari Shankar
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Patent number: 9939667Abstract: A driver configuration for driving a Mach-Zehnder modulator (MZM) includes a first driver supplied by a first voltage and a second voltage and configured to provide a first two complimentary outputs respectively to a first N-electrode of a first branch of the MZM and a second N-electrode of a second branch of the MZM. Additionally, the driver configuration includes a second driver supplied by a third voltage and a fourth voltage and configured to provide a second two complimentary outputs respectively to a first P-electrode of the first branch and a second P-electrode of the second branch. The driver configuration sets a difference between the third voltage and the fourth voltage equal to a difference between the first voltage and the second voltage to provide a same peak-to-peak differential swing for modulating light wave through each transmission line and output a modulated light with twice of the peak-to-peak differential swing.Type: GrantFiled: April 17, 2017Date of Patent: April 10, 2018Assignee: INPHI CORPORATIONInventors: Abdellatif El-Moznine, Bruno Tourette, Hessam Mohajeri
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Patent number: 9939841Abstract: A method and circuit are provided to reduce the power consumption of high-speed clocks that are distributed across an integrated circuit (IC). Example implementations seek to reduce the amount of power dissipated in typical clock distribution networks by turning the combination of a multi-port electrical network and transmission line into a multi-resonant structure. In an implementation, the multi-port electrical network is coupled between first and second segments of the transmission line. The multi-port electrical network includes a series inductive reactance and a shunt inductive susceptance configured to produce first and second resonances that cooperate to create a bandpass response across clock distribution frequencies. This bandpass response is created by the multi-resonant structure, which is a combination of the transmission line and the multi-port electrical network.Type: GrantFiled: January 10, 2017Date of Patent: April 10, 2018Assignee: INPHI CORPORATIONInventor: Tomas Alexander Dusatko
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Patent number: 9935795Abstract: A driver circuit device using driver equalization in power and ground terminated transmission line channels. The driver circuit device can include a weaker pull-up driver, which is needed to pre-emphasize the pull-up signal for driver equalization in power terminated transmission line channels. The driver circuit device can also include a weaker pull-down driver, which is needed to pre-emphasize the pull-down signal for driver equalization in ground terminated transmission line channels. In the transmission line channels with power terminations, a weaker pull-up Ron is implemented. In the transmission line channels with ground terminations, a weaker pull-down Ron is implemented. Drivers implemented in power and/or ground terminated transmission line channels can be used to improve device performance, such as in signal eye opening.Type: GrantFiled: June 22, 2017Date of Patent: April 3, 2018Assignee: INPHI CORPORATIONInventors: Liang Leon Zhang, Friedel Gerfers, Carl Pobanz, Myoung Joon Choi, Vivek Gurumoorthy, Chienhsin Lee
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Patent number: 9935706Abstract: In an example, the present invention includes an integrated system-on-chip device. The device is configured on a single silicon substrate member. The device has a data input/output interface provided on the substrate member. The device has an input/output block provided on the substrate member and coupled to the data input/output interface. The device has a signal processing block provided on the substrate member and coupled to the input/output block. The device has a driver module provided on the substrate member and coupled to the signal processing block. In an example, the device has a driver interface provided on the substrate member and coupled to the driver module and configured to be coupled to a silicon photonics device. In an example, a control block is configured to receive and send instruction(s) in a digital format to the communication block and is configured to receive and send signals in an analog format to communicate with the silicon photonics device.Type: GrantFiled: August 16, 2017Date of Patent: April 3, 2018Assignee: INPHI CORPORATIONInventor: Radhakrishnan L. Nagarajan
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Patent number: 9929814Abstract: A silicon photonics based temperature-insensitive delay line interferometer (DLI). The DLI includes a first arm comprising a first length of a first material characterized by a first group index corresponding to a first phase delay to transfer a first light wave with a first peak frequency and a second arm comprising a second length of a second material characterized by a second group index corresponding to a second phase to transfer a second light wave with a second peak frequency with a time-delay difference relative to the first light wave. The first phase delay and the second phase delay are configured to change equally upon a change of temperature. The time-delay difference between the first light wave and the second light wave is set to be inversed value of a free spectral range (FSR) to align at least the first peak frequency to a channel of a designated frequency grid.Type: GrantFiled: May 6, 2016Date of Patent: March 27, 2018Assignee: INPHI CORPORATIONInventors: Masaki Kato, Radhakrishnan L. Nagarajan
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Patent number: 9921593Abstract: The present disclosure provides a detailed description of techniques for implementing a wideband low dropout voltage regulator with power supply rejection boost. More specifically, some embodiments of the present disclosure are directed to a voltage regulator comprising a voltage regulator core powered by a supply voltage and providing a regulated voltage output, and a power supply feed forward injection module delivering an injection signal to the voltage regulator core to effect a power supply rejection of the supply voltage variation from the regulated voltage. In one or more embodiments, the injection signal is determined from the supply voltage variation and a gain factor that is based on various design attributes of the output stage of the voltage regulator core. In one or more embodiments, the power supply feed forward injection module comprises a supply voltage sense circuit, a low pass filter, and one or more selectable transconductance amplifiers.Type: GrantFiled: December 9, 2016Date of Patent: March 20, 2018Assignee: INPHI CORPORATIONInventors: James Lawrence Gorecki, Han-Yuan Tan
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Patent number: 9921379Abstract: A compact optical transceiver formed by hybrid multichip integration. The optical transceiver includes a Si-photonics chip attached on a PCB. Additionally, the optical transceiver includes a first TSV interposer and a second TSV interposer separately attached nearby the Si-photonics chip on the PCB. Furthermore, the optical transceiver includes a driver chip flip-bonded partially on the Si-photonics chip through a first sets of bumps and partially on the first TSV interposer through a second sets of bumps. Moreover, the optical transceiver includes a transimpedance amplifier module chip flip-bonded partially on the Si-photonics chip through a third sets of bumps and partially on the second TSV interposer through a fourth set of bumps.Type: GrantFiled: April 7, 2017Date of Patent: March 20, 2018Assignee: INPHI CORPORATIONInventors: Liang Ding, Radhakrishnan L. Nagarajan, Roberto Coccioli
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Patent number: 9915781Abstract: A waveguide-based polarization splitter-rotator (PSR) includes a converter with tapered rib-structure configured to convert TM0/TE0 polarization mode of an input light to a TE1/TE0 mode, a splitter coupled to the first plane for splitting the input light evenly to a first wave at a first port and a second wave at a second port. Furthermore, the PSR includes a phase shifter having a first arm coupled to first port and a second arm coupled to the second port. The first arm guides the first wave to a third port with no phase shift while the second arm adds 90 or 270 degrees to the second wave. The PSR also includes a 2×2 MMI coupler for coupling the first wave and the second wave to output a first output light in TE0 mode exclusively from TM0 mode and a second output light in TE0 mode exclusively from TE0 mode.Type: GrantFiled: March 28, 2017Date of Patent: March 13, 2018Assignee: INPHI CORPORATIONInventor: Jie Lin
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Patent number: 9912411Abstract: The present invention is directed to data communication system and methods. More specifically, various embodiments of the present invention provide a communication interface that is configured to transfer data at high bandwidth using PAM format(s) over optical communication networks. In various embodiments, amplitude and phase of the optical wave are modulated. There are other embodiments as well.Type: GrantFiled: September 27, 2016Date of Patent: March 6, 2018Assignee: INPHI CORPORATIONInventors: Tom Peter Edward Broekaert, Hari Shankar
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Patent number: 9899969Abstract: A transimpedance amplifier (TIA) structure includes an input node with a variable inductance component serving to reduce variation in peak amplitude over different gain conditions. According to certain embodiments, an inductor at the TIA input has a first node in communication with a Field Effect Transistor (FET) drain, and a second node in communication with the FET source. A control voltage applied to the FET gate effectively controls the input inductance by adding a variable impedance across the inductor. Under low gain conditions, lowering of inductance afforded by the control voltage applied to the FET reduces voltage peaking. TIAs in accordance with embodiments may be particularly suited to operate over a wide dynamic range to amplify incoming electrical signals received from a photodiode.Type: GrantFiled: August 22, 2017Date of Patent: February 20, 2018Assignee: INPHI CORPORATIONInventor: Tom Broekaert
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Patent number: 9899973Abstract: Split cascade circuits include multiple cascade paths coupled between voltage supply rails. Each cascade path includes a pair of controllable switches. A feedback path is provided for at least one of the cascade circuit paths. An active load circuit may also have a split cascade structure. Multiple-stage circuits, for implementation in Trans-Impedance Amplifiers (TIAs) or analog Receive Front-End modules (RXFEs), for example, include multiple stages of split cascade circuits.Type: GrantFiled: March 18, 2016Date of Patent: February 20, 2018Assignee: INPHI CORPORATIONInventors: Florin Pera, Stephane Dallaire, Brian Wall
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Patent number: 9900088Abstract: A Pulse Amplitude Modulated (PAM) optical device utilizing multiple wavelengths, features a communications interface having enhanced diagnostics capability. New registers are created to house additional diagnostic information, such as error rates. The diagnostic information may be stored in raw form, or as processed on-chip utilizing local resources.Type: GrantFiled: September 1, 2017Date of Patent: February 20, 2018Assignee: INPHI CORPORATIONInventor: Todd Rope
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Patent number: 9893803Abstract: In an example, the present invention includes an integrated system on chip device. At least a pair of laser devices are associated with a channel and coupled to a switch to select one of the pair of laser devices to be coupled to an optical multiplexer to provide for a redundant laser device.Type: GrantFiled: December 23, 2016Date of Patent: February 13, 2018Assignee: INPHI CORPORATIONInventor: Radhakrishnan L. Nagarajan
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Patent number: 9885831Abstract: An silicon photonics device of hybrid waveguides having a coupling interlayer with an accurately controlled thickness and a method of making the same. The device includes a first plurality of Si waveguides formed in a SOI substrate and a first layer of SiO2 overlying the first plurality of Si waveguides and a second plurality of Si3N4 waveguides formed on the first layer of SiO2. At least one Si3N4 waveguide is disposed partially overlapping with at least one of the first plurality Si waveguides in vertical direction separated by the first layer of SiO2 with a thickness controlled no greater than 90 nm. The device includes a second layer of SiO2 overlying the second plurality of Si3N4 waveguides. The method of accurately controlling the coupling interlayer SiO2 thickness includes a multilayer SiO2/Si3N4/SiO2 hard mask process for SiO2 etching and polishing as stopping and buffering layer as well as Si waveguide etching mask.Type: GrantFiled: May 3, 2017Date of Patent: February 6, 2018Assignee: INPHI CORPORATIONInventors: Liang Ding, Radhakrishnan L. Nagarajan
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Patent number: 9887516Abstract: A packaged transmitter device includes a base member comprising a planar part mounted with a thermoelectric cooler, a transmitter, and a coupling lens assembly, and an assembling part connected to one side of the planar part. The device further includes a circuit board bended to have a first end region and a second end region being raised to a higher level. The first end region disposed on a top surface of the planar part includes multiple electrical connection patches respectively connected to the thermoelectric and the transmitter. The second end region includes an electrical port for external connection. Additionally, the device includes a cover member disposed over the planar part. Furthermore, the device includes a cylindrical member installed to the assembling part for enclosing an isolator aligned to the coupling lens assembly along its axis and connected to a fiber to couple optical signal from the transmitter to the fiber.Type: GrantFiled: December 8, 2016Date of Patent: February 6, 2018Assignees: INPHI CORPORATION, LUXNET CORPORATIONInventors: Radhakrishnan L. Nagarajan, Peng-Chih Li, Pi-Cheng Law
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Patent number: 9882532Abstract: The present disclosure provides a detailed description of techniques for implementing a linear amplifier with extended linear output range. More specifically, the present disclosure discloses techniques for extending the output signal range of a linear amplifier with a minimum increase in power consumption and die area consumption. Some embodiments facilitate coupling boost amplifiers with adjustable independent biasing to a main amplifier to boost the output signal near the non-linear regions of the transfer curve to extend the linear range. Certain embodiments comprise a first boost amplifier biased to contribute to the output signal when the input signal is near a negative threshold voltage, and a second boost amplifier biased to contribute to the output signal when the input signal is near a positive threshold voltage. In certain embodiments, the threshold voltages and/or the bias currents can be controlled to adjust certain amplifier attributes.Type: GrantFiled: March 4, 2016Date of Patent: January 30, 2018Assignee: INPHI CORPORATIONInventors: Ariel Leonardo Vera Villarroel, Subramaniam Shankar, Steffen O. Nielsen, Carl Pobanz
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Patent number: 9882706Abstract: Systems and methods for high speed communications are described herein. In certain aspects, the systems and methods include innovative transceiver architectures and techniques for re-timing, multiplexing, de-multiplexing and transmitting data. The systems and methods can be used to achieve reliable high-speed point-to-point communication between different electronic devices, computing devices, storage devices and peripheral devices.Type: GrantFiled: December 28, 2016Date of Patent: January 30, 2018Assignee: INPHI CORPORATIONInventors: Marcel Louis Lugthart, Jeffrey Zachan, Linghsiao Jerry Wang, Paul Voois, Neel H. Patel, Norman L. Swenson, Scott Powell
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Patent number: 9882648Abstract: A receiver (e.g., for a 10G fiber communications link) includes an interleaved ADC coupled to a multi-channel equalizer that can provide different equalization for different ADC channels within the interleaved ADC. That is, the multi-channel equalizer can compensate for channel-dependent impairments. In one approach, the multi-channel equalizer is a feedforward equalizer (FFE) coupled to a Viterbi decoder, for example a sliding block Viterbi decoder (SBVD); and the FFE and/or the channel estimator for the Viterbi decoder are adapted using the LMS algorithm.Type: GrantFiled: December 21, 2016Date of Patent: January 30, 2018Assignee: INPHI CORPORATIONInventors: Oscar Ernesto Agazzi, Diego Ernesto Crivelli, Hugo Santiago Carrer, Mario Rafael Hueda, German Cesar Augusto Luna, Carl Grace