公开(公告)号：US20140335808A1

公开(公告)日：2014-11-13

申请号：US14272331

申请日：2014-05-07

Applicant: Maxlinear, Inc.

Inventor： Raja Pullela ,  Wenjian Chen ,  Vamsi Paidi

IPC: H03F3/19 ,  H04B1/16

CPC classification number: H04B1/16 ,  H03F1/565 ,  H03F3/195 ,  H03F2200/06 ,  H03F2200/165 ,  H03F2200/171 ,  H03F2200/294 ,  H03F2200/429 ,  H03F2200/451 ,  H03F2203/7209 ,  H03G5/28 ,  H03H7/0115 ,  H04B1/005

Abstract: Methods and systems for a configurable low-noise amplifier with programmable band-selection filters may comprise a low-noise amplifier (LNA) with a low pass filter coupled to a first input of the LNA and a high pass filter coupled to a second input of the LNA. The low pass filter and the high pass filter may also be coupled to a signal source input. Signals may be received in a pass band of the high pass filter and a pass band of the low pass filter. Input signals in the pass band of the one filter (but not signals in the pass band of the other filter) may be amplified by coupling the one input of the LNA to ground and coupling the other filter to ground utilizing a shunt resistor. The filters may be configurable and may each comprise at least one inductor and at least one capacitor.

Abstract translation: 具有可编程频带选择滤波器的可配置低噪声放大器的方法和系统可以包括具有耦合到LNA的第一输入的低通滤波器的低噪声放大器（LNA）和耦合到LNA的第二输入的高通滤波器 LNA。 低通滤波器和高通滤波器也可以耦合到信号源输入。 信号可以在高通滤波器的通带和低通滤波器的通带中被接收。 一个滤波器的通带中的输入信号（但不是另一个滤波器的通带中的信号）可以通过将LNA的一个输入耦合到地并且使用分流电阻将另一个滤波器耦合到地来放大。 滤波器可以是可配置的，并且每个滤波器可以包括至少一个电感器和至少一个电容器。

公开(公告)号：US10187096B2

公开(公告)日：2019-01-22

申请号：US15609946

申请日：2017-05-31

Applicant: Maxlinear, Inc.

Inventor： Subramanian Anantharaman Chandrasekarapuram ,  Anand Anandakumar ,  Stephane Laurent-Michel ,  Sheng Ye ,  Raja Pullela ,  Glenn Chang ,  Vamsi Paidi

IPC: H04L7/00 ,  H04B1/10

Abstract: A system comprises a microwave backhaul outdoor unit having a first resonant circuit, phase error determination circuitry, and phase error compensation circuitry. The first resonant circuit is operable to generate a first signal characterized by a first amount of phase noise and a first amount of temperature stability. The phase error determination circuitry is operable to generate a phase error signal indicative of phase error between the first signal and a second signal, wherein the second signal is characterized by a second amount of phase noise that is greater than the first amount of phase noise, and the second signal is characterized by a second amount of temperature instability that is less than the first amount of temperature instability. The phase error compensation circuitry is operable to adjust the phase of a data signal based on the phase error signal, the adjustment resulting in a phase compensated signal.

公开(公告)号：US10181869B2

公开(公告)日：2019-01-15

申请号：US15887618

申请日：2018-02-02

Applicant: Maxlinear, Inc.

Inventor： Raja Pullela ,  Wenjian Chen ,  Vamsi Paidi

IPC: H03F1/56 ,  H04B1/16 ,  H03F3/195 ,  H03G5/28 ,  H04B1/00 ,  H03H7/01

Abstract: Methods and systems for a configurable low-noise amplifier with programmable band-selection filters may comprise a receiver with a low-noise amplifier (LNA) with first and second input terminals and differential output terminals; a low pass filter operably coupled to the LNA; a high pass filter operably coupled to the second input terminal of the LNA; and a signal source input coupled to the low pass filter and the high pass filter. The LNA may be operable to receive signals in a pass band of the high pass filter and a pass band of the low pass filter. The receiver may be operable to amplify input signals in the pass band of a first filter but not signals in the pass band of the second filter by operably coupling the second to ground.

公开(公告)号：US20180191452A1

公开(公告)日：2018-07-05

申请号：US15907404

申请日：2018-02-28

Applicant: Maxlinear, Inc.

Inventor： Glenn Chang ,  Raja Pullela ,  Madhukar Reddy ,  Timothy Gallagher ,  Shantha Murthy Prem Swaroop ,  Curtis Ling ,  Vamsi Paidi ,  Wenjian Chen

IPC: H04H40/90 ,  H04N21/61

CPC classification number: H04H40/90 ,  H04N21/6143

Abstract: A direct broadcast satellite (DBS) reception assembly may comprise an integrated circuit that is configurable between or among a plurality of configurations based on content requested by client devices served by the DBS reception assembly. In a first configuration, multiple satellite frequency bands may be digitized by the integrated circuit as a single wideband signal. In a second configuration, the satellite frequency bands may be digitized by the integrated circuit as a plurality of separate narrowband signals. The integrated circuit may comprise a plurality of receive paths, each of the receive chains comprising a respective one of a plurality of low noise amplifiers and a plurality of analog-to-digital converters.

公开(公告)号：US20180191357A1

公开(公告)日：2018-07-05

申请号：US15906578

申请日：2018-02-27

Applicant: Maxlinear, Inc.

Inventor： Sangeetha Gopalakrishnan ,  Sheng Ye ,  Vamsi Paidi ,  Raghava Manas Bachu

IPC: H03L7/085 ,  H03L7/099 ,  H03L7/197 ,  H03L7/093

CPC classification number: H03L7/085 ,  H03L7/093 ,  H03L7/099 ,  H03L7/1974 ,  H03L7/1976

Abstract: Methods and systems for a sampled loop filter in a phase locked loop (PLL) may comprise a phase locked loop (PLL) comprising a phase frequency detector, a sampled loop filter comprising a plurality of capacitors and at least one switch, a plurality of voltage controlled oscillators (VCOs) coupled to said sampled loop filter, and a frequency divider. The PLL generates at least one clock signal, and the sampled loop filter samples an output signal from the phase frequency detector when an average of charge provided to a first of the plurality of capacitors in the sampled loop filter is zero. The frequency divider may be a fractional-N divider. A second switch in said sampled loop filter may have switching times that are non-overlapping with switching times of the at least one switch. Capacitors may be coupled to ground from each terminal of the second switch.

公开(公告)号：US20180159573A1

公开(公告)日：2018-06-07

申请号：US15887618

申请日：2018-02-02

Applicant: Maxlinear, Inc.

Inventor： Raja Pullela ,  Wenjian Chen ,  Vamsi Paidi

IPC: H04B1/16 ,  H03F3/195 ,  H03F1/56 ,  H03F3/72

CPC classification number: H04B1/16 ,  H03F1/565 ,  H03F3/195 ,  H03F2200/06 ,  H03F2200/165 ,  H03F2200/171 ,  H03F2200/294 ,  H03F2200/429 ,  H03F2200/451 ,  H03F2203/7209 ,  H03G5/28 ,  H03H7/0115 ,  H04B1/005

Abstract: Methods and systems for a configurable low-noise amplifier with programmable band-selection filters may comprise a receiver with a low-noise amplifier (LNA) with first and second input terminals and differential output terminals; a low pass filter operably coupled to the LNA; a high pass filter operably coupled to the second input terminal of the LNA; and a signal source input coupled to the low pass filter and the high pass filter. The LNA may be operable to receive signals in a pass band of the high pass filter and a pass band of the low pass filter. The receiver may be operable to amplify input signals in the pass band of a first filter but not signals in the pass band of the second filter by operably coupling the second to ground.

公开(公告)号：US20180091104A1

公开(公告)日：2018-03-29

申请号：US15805385

申请日：2017-11-07

Applicant: Maxlinear, Inc.

Inventor： Abhishek Jajoo ,  Vamsi Paidi

IPC: H03F3/45 ,  H03F3/195 ,  H03F1/52

CPC classification number: H03F3/45179 ,  H03F1/523 ,  H03F3/195 ,  H03F3/45188 ,  H03F2200/171 ,  H03F2200/222 ,  H03F2200/294 ,  H03F2200/336 ,  H03F2200/451 ,  H03F2203/45166 ,  H03F2203/45386 ,  H03F2203/45464

Abstract: Methods and systems for a pseudo-differential low-noise amplifier at Ku-band may comprise a low-noise amplifier (LNA) integrated on a semiconductor die, where the LNA includes first and second differential pair transistors with an embedded inductor tail integrated on the semiconductor die. The embedded inductor tail may include: a first inductor with a first terminal capacitively-coupled to a gate terminal of the first differential pair transistor and a second terminal of the first inductor coupled to second, third, and fourth inductors. The second inductor may be coupled to a source terminal of the first differential pair transistor, the fourth inductor may be coupled to a source terminal of the second differential pair transistor, and the third inductor may be capacitively-coupled to a gate terminal of the second differential pair transistor and also to ground. The second inductor may be embedded within the first inductor.

公开(公告)号：US09887719B2

公开(公告)日：2018-02-06

申请号：US15483064

申请日：2017-04-10

Applicant: Maxlinear, Inc.

Inventor： Raja Pullela ,  Wenjian Chen ,  Vamsi Paidi

IPC: H04B1/18 ,  H04B1/16 ,  H03F3/195 ,  H03F1/56 ,  H03F3/72 ,  H03H7/01

CPC classification number: H04B1/16 ,  H03F1/565 ,  H03F3/195 ,  H03F2200/06 ,  H03F2200/165 ,  H03F2200/171 ,  H03F2200/294 ,  H03F2200/429 ,  H03F2200/451 ,  H03F2203/7209 ,  H03G5/28 ,  H03H7/0115 ,  H04B1/005

Abstract: Methods and systems for a configurable low-noise amplifier with programmable band-selection filters may comprise a receiver with a low-noise amplifier (LNA) with first and second input terminals and differential output terminals; a low pass filter operably coupled to the LNA; a high pass filter operably coupled to the second input terminal of the LNA; and a signal source input coupled to the low pass filter and the high pass filter. The LNA may be operable to receive signals in a pass band of the high pass filter and a pass band of the low pass filter. The receiver may be operable to amplify input signals in the pass band of a first filter but not signals in the pass band of the second filter by operably coupling the second to ground.

公开(公告)号：US09819319B2

公开(公告)日：2017-11-14

申请号：US15232056

申请日：2016-08-09

Applicant: Maxlinear, Inc.

Inventor： Abhishek Jajoo ,  Vamsi Paidi

IPC: H03F3/45 ,  H03F3/195 ,  H03F1/52

CPC classification number: H03F3/45179 ,  H03F1/523 ,  H03F3/195 ,  H03F3/45188 ,  H03F2200/171 ,  H03F2200/222 ,  H03F2200/294 ,  H03F2200/336 ,  H03F2200/451 ,  H03F2203/45166 ,  H03F2203/45386 ,  H03F2203/45464

Abstract: Methods and systems for a pseudo-differential low-noise amplifier at Ku-band may comprise a low-noise amplifier (LNA) integrated on a semiconductor die, where the LNA comprises differential pair transistors with an embedded inductor tail integrated on the semiconductor die. The embedded inductor tail may comprise: a first inductor with a first terminal capacitively-coupled to a gate terminal of a first transistor of the differential pair transistors and a second terminal of the first inductor coupled to second, third, and fourth inductors. The second inductor may be coupled to a source terminal of the first transistor of the differential pair transistors, the fourth inductor may be coupled to a source terminal of the second transistor of the differential pair transistors, and the third inductor may be capacitively-coupled to a gate terminal of the second transistor of the differential pair transistors and also to ground. The second inductor may be embedded within the first inductor.

公开(公告)号：US20170264325A1

公开(公告)日：2017-09-14

申请号：US15609946

申请日：2017-05-31

Applicant: Maxlinear, Inc.

Inventor： Subramanian Anantharaman Chandrasekarapuram ,  Anand Anandakumar ,  Stephane Laurent-Michel ,  Sheng Ye ,  Raja Pullela ,  Glenn Chang ,  Vamsi Paidi

IPC: H04B1/10

CPC classification number: H04B1/1027

Abstract: A system comprises a microwave backhaul outdoor unit having a first resonant circuit, phase error determination circuitry, and phase error compensation circuitry. The first resonant circuit is operable to generate a first signal characterized by a first amount of phase noise and a first amount of temperature stability. The phase error determination circuitry is operable to generate a phase error signal indicative of phase error between the first signal and a second signal, wherein the second signal is characterized by a second amount of phase noise that is greater than the first amount of phase noise, and the second signal is characterized by a second amount of temperature instability that is less than the first amount of temperature instability. The phase error compensation circuitry is operable to adjust the phase of a data signal based on the phase error signal, the adjustment resulting in a phase compensated signal.