Patents by Inventor Charles Brooks
Charles Brooks has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8948240Abstract: An adaptive receiver is disclosed for optimally receiving and processing signals. The receiver utilizes one or more memory blocks to store groups of incoming symbols. The groups of symbols are processed by a channel estimation subsystem to determine channel characteristics. The receiver determines the appropriate demodulation and decoding strategy to implement based on the determined channel characteristics. The receiver includes a plurality of demodulation and decoding schemes, one of which is selected based on the results of a channel estimation analysis.Type: GrantFiled: October 21, 2008Date of Patent: February 3, 2015Assignee: Broadcom CorporationInventors: Randall Perlow, Charles Brooks, Steven Jaffe, Tianmin Liu
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Patent number: 8437720Abstract: An apparatus and method is disclosed for adjusting a gain of an amplifier assembly array. The amplifier assembly array includes a first stage to provide an amplified signal based upon an input signal. The first stage has a variable gain controlled in response to one or more gain control signals. An Automatic Gain Control (AGC) module generates the one or more gain control signals according to a ramp function in response to a power level of the amplified signal. The first stage may include a first low noise amplifier (LNA) to amplify the input signal to provide a first amplified input signal and a second LNA to amplify a second input signal to provide a second amplified signal. A switch selects between the amplified signal and the second amplified signal to provide the amplified signal. The amplifier assembly array may additionally include a second stage to provide a second amplified signal based upon the amplified signal.Type: GrantFiled: November 19, 2009Date of Patent: May 7, 2013Assignee: Broadcom CorporationInventors: Lawrence M. Burns, Charles Brooks, Leonard Dauphinee
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Publication number: 20110002242Abstract: Sparse channel equalization may be achieved by receiving a signal via a multi-path communication channel. The equalization then continues by extracting sparse information regarding the multiple path communication channel from the signal. Such sparse information generally indicates the position of the signals received via each of the multiple paths. The equalization then continues by estimating a channel response of the multiple path communication channel based on the sparse information. The equalization then continues by generating equalization taps (or coefficients) based on the channel response. The equalization then continues by equalizing the signal based on the equalization taps.Type: ApplicationFiled: March 12, 2003Publication date: January 6, 2011Inventors: Randall Perlow, Nabil Yousef, Charles Brooks, Tianmin Liu
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Patent number: 7701515Abstract: A front end circuit for a television receiver includes a demultiplexer for inputting a multi-band signal from a signal source and separating the multi-band signal into corresponding bands. A plurality of amplifiers adjust gain on signals corresponding to the bands. A multiplexer combines outputs of the amplifiers into a gain-adjusted signal. A plurality of switches direct selected bands to corresponding tuners. The amplifiers are low noise amplifiers. The amplifiers adjust gain between the bands so as to have similar signal strength in the bands. A cable TV input may also be used, wherein the switches also direct signals from the cable TV to the corresponding tuners. Each amplifier can output two (or more) identical signals for its corresponding band, the multiplexer can be a dual multiplexer, and an output of the multiplexer includes only bands selected for direction to the tuners.Type: GrantFiled: July 2, 2004Date of Patent: April 20, 2010Assignee: Broadcom CorporationInventors: Ramon A. Gomez, Charles Brooks, Leonard Dauphinee
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Publication number: 20100073572Abstract: An apparatus and method is disclosed for adjusting a gain of an amplifier assembly array. The amplifier assembly array includes a first stage to provide an amplified signal based upon an input signal. The first stage has a variable gain controlled in response to one or more gain control signals. An Automatic Gain Control (AGC) module generates the one or more gain control signals according to a ramp function in response to a power level of the amplified signal. The first stage may include a first low noise amplifier (LNA) to amplify the input signal to provide a first amplified input signal and a second LNA to amplify a second input signal to provide a second amplified signal. A switch selects between the amplified signal and the second amplified signal to provide the amplified signal. The amplifier assembly array may additionally include a second stage to provide a second amplified signal based upon the amplified signal.Type: ApplicationFiled: November 19, 2009Publication date: March 25, 2010Applicant: Broadcom CorporationInventors: Lawrence M. Burns, Charles Brooks, Leonard Dauphinee
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Patent number: 7634244Abstract: A multi-stage amplifier assembly configured to receive a terrestrial digital television (“DTV”) input signal including multiple frequency channels. The amplifier assembly optionally includes a PIN diode coupled across differential inputs to a first stage of the multi-stage amplifier assembly. The PIN diode is controlled to attenuate the input when an exceptionally large signal is present in a channel adjacent to a desired channel. The PIN diode, essentially a variable resistor, permits the multi-stage amplifier assembly to maintain dynamic range in such situations for reasonable tradeoffs. The amplifier assembly further optionally includes an out-of-band second stage LNA. The amplifier assembly further optionally includes a multi-band input filter. The multi-band filer insures that the AGC operates on the TV band of interest, thus improving the linearity of the system. The invention can be implemented in CMOS and/or SiGe.Type: GrantFiled: May 31, 2005Date of Patent: December 15, 2009Assignee: Broadcom CorporationInventors: Lawrence M. Burns, Charles Brooks, Leonard Dauphinee
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Patent number: 7525600Abstract: Methods and systems for processing television signals are disclosed herein, and may comprise decoding a first analog video signal via an integrated circuit comprising circuitry for decoding and processing digital video signals. A second analog video signal may be simultaneously decoded via the integrated circuit. A first video output corresponding to the decoded first analog video signal and a second video output corresponding to the decoded second analog video signal may be simultaneously generating via the integrated circuit. An out-of-band signal corresponding to the decoded first or second analog video signal may be received via the integrated circuit. The received out-of-band signal may be processed via the integrated circuit. The first analog video signal and the second analog video signal may comprise an NTSC signal, a composite signal, an S-video signal, and/or a component signal. The digital video signals may be decoded via the integrated circuit.Type: GrantFiled: May 25, 2005Date of Patent: April 28, 2009Assignee: Broadcom CorporationInventors: Tarek Kaylani, Charles Brooks
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Publication number: 20090051821Abstract: An adaptive receiver is disclosed for optimally receiving and processing signals. The receiver utilizes one or more memory blocks to store groups of incoming symbols. The groups of symbols are processed by a channel estimation subsystem to determine channel characteristics. The receiver determines the appropriate demodulation and decoding strategy to implement based on the determined channel characteristics. The receiver includes a plurality of demodulation and decoding schemes, one of which is selected based on the results of a channel estimation analysis.Type: ApplicationFiled: October 21, 2008Publication date: February 26, 2009Inventors: Randall Perlow, Charles Brooks, Steven Jaffe, Tianmin Liu
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Patent number: 7440520Abstract: An adaptive receiver is disclosed for optimally receiving and processing signals. The receiver utilizes one or more memory blocks to store groups of incoming symbols. The groups of symbols are processed by a channel estimation subsystem to determine channel characteristics. The receiver determines the appropriate demodulation and decoding strategy to implement based on the determined channel characteristics. The receiver includes a plurality of demodulation and decoding schemes, one of which is selected based on the results of a channel estimation analysis.Type: GrantFiled: May 29, 2007Date of Patent: October 21, 2008Assignee: Broadcom CorporationInventors: Randall Perlow, Charles Brooks, Steven Jaffe, Tianmin Liu
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Publication number: 20070223563Abstract: An adaptive receiver is disclosed for optimally receiving and processing signals. The receiver utilizes one or more memory blocks to store groups of incoming symbols. The groups of symbols are processed by a channel estimation subsystem to determine channel characteristics. The receiver determines the appropriate demodulation and decoding strategy to implement based on the determined channel characteristics. The receiver includes a plurality of demodulation and decoding schemes, one of which is selected based on the results of a channel estimation analysis.Type: ApplicationFiled: May 29, 2007Publication date: September 27, 2007Inventors: Randall Perlow, Charles Brooks, Steven Jaffe, Tianmin Liu
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Patent number: 7260377Abstract: A multi-stage amplifier assembly configured to receive a terrestrial digital television (“DTV”) input signal including multiple frequency channels. The amplifier assembly optionally includes a PIN diode coupled across differential inputs to a first stage of the multi-stage amplifier assembly. The PIN diode is controlled to attenuate the input when an exceptionally large signal is present in a channel adjacent to a desired channel. The PIN diode, essentially a variable resistor, permits the multi-stage amplifier assembly to maintain dynamic range in such situations for reasonable tradeoffs. The amplifier assembly further optionally includes an out-of-band second stage LNA. The amplifier assembly further optionally includes a multi-band input filter. The multi-band filer insures that the AGC operates on the TV band of interest, thus improving the linearity of the system. The invention can be implemented in CMOS and/or SiGe.Type: GrantFiled: January 10, 2005Date of Patent: August 21, 2007Assignee: Broadcom CorporationInventors: Lawrence M. Burns, Charles Brooks, Leonard Dauphinee
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Patent number: 7224726Abstract: An adaptive receiver is disclosed for optimally receiving and processing signals. The receiver utilizes one or more memory blocks to store groups of incoming symbols. The groups of symbols are processed by a channel estimation subsystem to determine channel characteristics. The receiver determines the appropriate demodulation and decoding strategy to implement based on the determined channel characteristics. The receiver includes a plurality of demodulation and decoding schemes, one of which is selected based on the results of a channel estimation analysis.Type: GrantFiled: March 28, 2002Date of Patent: May 29, 2007Assignee: Broadcom CorporationInventors: Randall Perlow, Charles Brooks, Steven Jaffe, Tianmin Liu
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Publication number: 20060230893Abstract: A method and apparatus for producing mulch. The apparatus includes a saw blade assembly having a cutter defining a cutting plane, and a clamp assembly for holding a log. The clamp assembly holds the log with its grain substantially parallel to the cutting edge. The apparatus further includes a movement means for repetitively moving the clamp assembly and saw blade assembly relative to each other so as to feed the saw blade assembly into the log while the grain remains substantially parallel to the cutting plane, so that the saw blade assembly removes thin, narrow strips of wood mulch from the log.Type: ApplicationFiled: April 18, 2006Publication date: October 19, 2006Inventor: Charles Brooks
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Publication number: 20060213591Abstract: High strength aluminum alloys based on the Al—Zn—Mg—Cu alloy system preferably include high levels of zinc and copper, but modest levels of magnesium, to provide increased tensile strength without sacrificing toughness. Preferred ranges of the elements include by weight, 8.5-10.5% Zn, 1.4-1.85 % Mg, 2.25-3.0% Cu and at least one element from the group Zr, V, or Hf not exceeding about 0.5%, the balance substantially aluminum and incidental impurities. In addition, small amounts of scandium (0.05-0.30%) are also preferably employed to prevent recrystalization. During formation of the alloys, homogenization, solution heat treating and artificial aging processes are preferably employed.Type: ApplicationFiled: March 24, 2005Publication date: September 28, 2006Inventors: Charles Brooks, Ralph Dorward, Ray Parkinson, Rob Matuska, Mory Shaarbaf
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Publication number: 20060158568Abstract: Methods and systems for processing television signals are disclosed herein, and may comprise decoding a first analog video signal via an integrated circuit comprising circuitry for decoding and processing digital video signals. A second analog video signal may be simultaneously decoded via the integrated circuit. A first video output corresponding to the decoded first analog video signal and a second video output corresponding to the decoded second analog video signal may be simultaneously generating via the integrated circuit. An out-of-band signal corresponding to the decoded first or second analog video signal may be received via the integrated circuit. The received out-of-band signal may be processed via the integrated circuit. The first analog video signal and the second analog video signal may comprise an NTSC signal, a composite signal, an S-video signal, and/or a component signal. The digital video signals may be decoded via the integrated circuit.Type: ApplicationFiled: May 25, 2005Publication date: July 20, 2006Inventors: Tarek Kaylani, Charles Brooks
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Publication number: 20060111293Abstract: Modified prolactin molecules wherein the prolactin molecule comprises at least one mutation in a region selected from i) amino acids 41-57, ii) amino acids 94-110, and iii) amino acids 160-173; and wherein the at least one mutation is selected from deletions, replacements, and insertions. The modified prolactins are prolactin antagonists, and can be used in treating cancer, among other conditions.Type: ApplicationFiled: November 7, 2005Publication date: May 25, 2006Inventors: Charles Brooks, Francis Peterson
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Publication number: 20050250689Abstract: A modified human prolactin molecule wherein the prolactin molecule comprises at least one mutation in a region selected from i) amino acids 41-57, ii) amino acids 94-110, and iii) amino acids 160-173; and wherein the at least one mutation is selected from deletions, replacements, and insertions. The modified prolactins are prolactin antagonists, and can be used in treating cancer, among other conditions.Type: ApplicationFiled: December 12, 2003Publication date: November 10, 2005Inventors: Charles Brooks, Francis Peterson
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Publication number: 20050208910Abstract: A multi-stage amplifier assembly configured to receive a terrestrial digital television (“DTV”) input signal including multiple frequency channels. The amplifier assembly optionally includes a PIN diode coupled across differential inputs to a first stage of the multi-stage amplifier assembly. The PIN diode is controlled to attenuate the input when an exceptionally large signal is present in a channel adjacent to a desired channel. The PIN diode, essentially a variable resistor, permits the multi-stage amplifier assembly to maintain dynamic range in such situations for reasonable tradeoffs. The amplifier assembly further optionally includes an out-of-band second stage LNA. The amplifier assembly further optionally includes a mutli-band input filter. The multi-band filer insures that the AGC operates on the TV band of interest, thus improving the linearity of the system. The invention can be implemented in CMOS and/or SiGe.Type: ApplicationFiled: May 31, 2005Publication date: September 22, 2005Applicant: Broadcom CorporationInventors: Lawrence Burns, Charles Brooks, Leonard Dauphinee
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Publication number: 20050195335Abstract: A front end circuit for a television receiver includes a demultiplexer for inputting a multi-band signal from a signal source and separating the multi-band signal into corresponding bands. A plurality of amplifiers adjust gain on signals corresponding to the bands. A multiplexer combines outputs of the amplifiers into a gain-adjusted signal. A plurality of switches direct selected bands to corresponding tuners. The amplifiers are low noise amplifiers. The amplifiers adjust gain between the bands so as to have similar signal strength in the bands. A cable TV input may also be used, wherein the switches also direct signals from the cable TV to the corresponding tuners. Each amplifier can output two (or more) identical signals for its corresponding band, the multiplexer can be a dual multiplexer, and an output of the multiplexer includes only bands selected for direction to the tuners.Type: ApplicationFiled: July 2, 2004Publication date: September 8, 2005Applicant: Broadcom CorporationInventors: Ramon Gomez, Charles Brooks, Leonard Dauhinee
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Publication number: 20050177860Abstract: Certain embodiments of the invention may be found in a method and system for a vestigial side band (VSB), quadrature amplitude modulation (QAM), NTSC, out-of-band (OOB) receiver that is integrated in a single chip. The single chip integrated digital television (DTV) receiver provides plug and play DTV receiver capability for handling both North American digital cable television and digital terrestrial broadcast television compatible systems. The integrated DTV receiver may receive all standard-definition and high-definition digital formats (SDTV/HDTV) and an on-chip NTSC demodulator handles NTSC video. An output of the NTSC demodulator may be directed to an external broadcast television system committee (BTSC) or Zweiton M decoder, or it may be sent to an on-chip audio BTSC compliant decoder. The single chip integrated DTV receiver may also comprise an integrated out-of-band QPSK receiver, which may be adapted to, for example, handle a CableCard compliant with the CableCard Specification.Type: ApplicationFiled: February 6, 2004Publication date: August 11, 2005Inventors: Maneesh Goyal, Charles Brooks, Randall Perlow