Patents by Inventor Dean Painchaud
Dean Painchaud 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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Publication number: 20240162872Abstract: A half duplex amplifier for a cable network.Type: ApplicationFiled: November 22, 2023Publication date: May 16, 2024Applicant: ARRIS Enterprises LLCInventors: Zoran MARICEVIC, Marcel F.C. SCHEMMANN, Zhijian SUN, Shodhan K. SHETTY, Dean PAINCHAUD, Brian J. SOLOMON
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Patent number: 11870403Abstract: A half duplex amplifier for a cable network.Type: GrantFiled: September 26, 2022Date of Patent: January 9, 2024Assignee: ARRIS Enterprises LLCInventors: Zoran Maricevic, Marcel F. C. Schemmann, Zhijian Sun, Shodhan K. Shetty, Dean Painchaud, Brian J. Solomon
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Publication number: 20230098958Abstract: A half duplex amplifier for a cable network.Type: ApplicationFiled: September 26, 2022Publication date: March 30, 2023Applicant: ARRIS Enterprises LLCInventors: Zoran MARICEVIC, Marcel F.C. SCHEMMANN, Zhijian SUN, Shodhan K. SHETTY, Dean PAINCHAUD, Brian J. SOLOMON
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Patent number: 11489711Abstract: Methods and apparatuses are provided to modify existing overlay system architectures in a cost effective manner to meet the growing demand for narrowcast services and to position the existing overlay systems for additional future modifications. The implementations of the improved overlay system of this disclosure re-digitize narrowcast analog signals after they have been QAM modulated and upconverted to RF frequencies and replace the analog narrowcast transmitters with digital narrowcast transmitters. In the fiber nodes, the received narrowcast signals are converted back to analog signals and combined with analog broadcast signals for transmission to the service groups.Type: GrantFiled: February 7, 2018Date of Patent: November 1, 2022Assignee: ARRIS Enterprises LLCInventors: Zoran Maricevic, Marcel F. Schemmann, Dean Painchaud, William P. Dawson, Zhijian Sun
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Patent number: 11362799Abstract: In some embodiments, a digital clock management system includes input signal conversion circuitry, logic circuitry and output signal conversion circuitry. The input signal conversion circuitry converts input signals to corresponding first digital data streams, each of which contains digital data synchronized to a first data clock. First digital logic circuitry converts the first digital data streams to second digital data streams, each of which contains digital data synchronized to the first data clock, and converts the second digital data streams to third digital data streams, each of which contains digital data synchronized to a common clock. Second digital logic circuitry converts the third digital data streams to a single digital data stream. The output signal conversion circuitry converts the single digital data stream to a modulated output signal.Type: GrantFiled: November 25, 2020Date of Patent: June 14, 2022Assignee: ARRIS Enterprises LLCInventors: Zhijian Sun, Dean Painchaud, Zoran Maricevic
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Publication number: 20210160045Abstract: In some embodiments, a digital clock management system includes input signal conversion circuitry, logic circuitry and output signal conversion circuitry. The input signal conversion circuitry converts input signals to corresponding first digital data streams, each of which contains digital data synchronized to a first data clock. First digital logic circuitry converts the first digital data streams to second digital data streams, each of which contains digital data synchronized to the first data clock, and converts the second digital data streams to third digital data streams, each of which contains digital data synchronized to a common clock. Second digital logic circuitry converts the third digital data streams to a single digital data stream. The output signal conversion circuitry converts the single digital data stream to a modulated output signal.Type: ApplicationFiled: November 25, 2020Publication date: May 27, 2021Inventors: Zhijian Sun, Dean Painchaud, Zoran Maricevic
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Publication number: 20180167255Abstract: Methods and apparatuses are provided to modify existing overlay system architectures in a cost effective manner to meet the growing demand for narrowcast services and to position the existing overlay systems for additional future modifications. The implementations of the improved overlay system of this disclosure re-digitize narrowcast analog signals after they have been QAM modulated and upconverted to RF frequencies and replace the analog narrowcast transmitters with digital narrowcast transmitters. In the fiber nodes, the received narrowcast signals are converted back to analog signals and combined with analog broadcast signals for transmission to the service groups.Type: ApplicationFiled: February 7, 2018Publication date: June 14, 2018Inventors: Zoran Maricevic, Marcel F. Schemmann, Dean Painchaud, William P. Dawson, Zhijian Sun
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Patent number: 9923751Abstract: Methods and apparatuses are provided to modify existing overlay system architectures in a cost effective manner to meet the growing demand for narrowcast services and to position the existing overlay systems for additional future modifications. The implementations of the improved overlay system of this disclosure re-digitize narrowcast analog signals after they have been QAM modulated and upconverted to RF frequencies and replace the analog narrowcast transmitters with digital narrowcast transmitters. In the fiber nodes, the received narrowcast signals are converted back to analog signals and combined with analog broadcast signals for transmission to the service groups.Type: GrantFiled: July 1, 2011Date of Patent: March 20, 2018Assignee: ARRIS Enterprises LLCInventors: Zoran Maricevic, Marcel F. Schemmann, Dean Painchaud, William P. Dawson, Zhijian Sun
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Patent number: 9893814Abstract: Particular embodiments use aggregation logic that reduces the noise in a daisy-chained optical return signal aggregation of multiple nodes. The aggregation logic determines when an input to a transmitter/receiver is not used and disables or turns off that input. Further, in the case of daisy-chaining, a service group aggregation signal (e.g., RF signals) from the customer premise equipment (CPEs) serviced by a respective node are presented to the channel “A” port of a digital return transmitter/receiver. However, internal to the transmitter/receiver, aggregation logic auto-senses what optical return signals have already been aggregated up to that point in the daisy chain and can then intelligently place the service group aggregation signal onto one of the digital return transmitter channels. In one embodiment, if there are two return channels, A and B, whichever of these channels has seen fewer aggregations up to this point, will receive the service group aggregation signal.Type: GrantFiled: February 16, 2017Date of Patent: February 13, 2018Assignee: ARRIS Enterprises LLCInventors: Zhijian Sun, Reza A. Saedi, Zoran Maricevic, Dean Painchaud
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Publication number: 20170222722Abstract: Particular embodiments use aggregation logic that reduces the noise in a daisy-chained optical return signal aggregation of multiple nodes. The aggregation logic determines when an input to a transmitter/receiver is not used and disables or turns off that input. Further, in the case of daisy-chaining, a service group aggregation signal (e.g., RF signals) from the customer premise equipment (CPEs) serviced by a respective node are presented to the channel “A” port of a digital return transmitter/receiver. However, internal to the transmitter/receiver, aggregation logic auto-senses what optical return signals have already been aggregated up to that point in the daisy chain and can then intelligently place the service group aggregation signal onto one of the digital return transmitter channels. In one embodiment, if there are two return channels, A and B, whichever of these channels has seen fewer aggregations up to this point, will receive the service group aggregation signal.Type: ApplicationFiled: February 16, 2017Publication date: August 3, 2017Inventors: Zhijian Sun, Reza A. Saedi, Zoran Maricevic, Dean Painchaud
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Patent number: 9608730Abstract: Particular embodiments use aggregation logic that reduces the noise in a daisy-chained optical return signal aggregation of multiple nodes. The aggregation logic determines when an input to a transmitter/receiver is not used and disables or turns off that input. Further, in the case of daisy-chaining, a service group aggregation signal (e.g., RF signals) from the customer premise equipment (CPEs) serviced by a respective node are presented to the channel “A” port of a digital return transmitter/receiver. However, internal to the transmitter/receiver, aggregation logic auto-senses what optical return signals have already been aggregated up to that point in the daisy chain and can then intelligently place the service group aggregation signal onto one of the digital return transmitter channels. In one embodiment, if there are two return channels, A and B, whichever of these channels has seen fewer aggregations up to this point, will receive the service group aggregation signal.Type: GrantFiled: April 2, 2015Date of Patent: March 28, 2017Assignee: ARRIS Enterprises, Inc.Inventors: Zhijian Sun, Reza A. Saedi, Zoran Maricevic, Dean Painchaud
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Publication number: 20160294476Abstract: Particular embodiments use aggregation logic that reduces the noise in a daisy-chained optical return signal aggregation of multiple nodes. The aggregation logic determines when an input to a transmitter/receiver is not used and disables or turns off that input. Further, in the case of daisy-chaining, a service group aggregation signal (e.g., RF signals) from the customer premise equipment (CPEs) serviced by a respective node are presented to the channel “A” port of a digital return transmitter/receiver. However, internal to the transmitter/receiver, aggregation logic auto-senses what optical return signals have already been aggregated up to that point in the daisy chain and can then intelligently place the service group aggregation signal onto one of the digital return transmitter channels. In one embodiment, if there are two return channels, A and B, whichever of these channels has seen fewer aggregations up to this point, will receive the service group aggregation signal.Type: ApplicationFiled: April 2, 2015Publication date: October 6, 2016Inventors: Zhijian Sun, Reza A. Saedi, Zoran Maricevic, Dean Painchaud
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Patent number: 9379830Abstract: Methods, systems, and computer-readable media can facilitate digitizing a broadcast transmission and transporting the digitized broadcast transmission along with one or more digitized narrowcast transmissions to a subscriber. In embodiments, a digitized broadcast transmission and one or more digitized narrowcast transmissions can be separately demodulated and the transmissions can be combined at one or more receiving nodes. In embodiments, a digitized broadcast transmission can be combined with one or more digitized narrowcast transmissions. Lossless compression and de-compression techniques can be used to optimally transport digitized broadcast and narrowcast signals.Type: GrantFiled: August 18, 2014Date of Patent: June 28, 2016Assignee: ARRIS Enterprises, Inc.Inventors: Marcel F. Schemmann, Zoran Maricevic, Zhijian Sun, Dean Painchaud
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Patent number: 9118419Abstract: Methods and apparatuses are provided to digitize an analog multi-channel RF narrowcast signal in an overlay system by dividing the signal into a plurality of subband signals and digitizing each subband signal using practical A/D converters.Type: GrantFiled: January 13, 2014Date of Patent: August 25, 2015Assignee: ARRIS Enterprises, Inc.Inventors: Zoran Maricevic, Zhijian Sun, Marcel F. Schemmann, Dean Painchaud
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Patent number: 9065566Abstract: Systems and methods of this disclosure can operate to provide digitization and optical transport of legacy and extended return path signals in hybrid fiber-coax (HFC) based broadband networks. A common radio frequency (RF) front-end can be used for the digitization of return path signals comprising analog to digital converters (A/Ds) with a precision and sampling rate to meet the SNR requirements of the communication system. Additionally the same digital signal processing logic can also be used through the implementation of digital filter(s) in FPGA technology where different FPGA images can be used to support different digital filtering configurations.Type: GrantFiled: March 14, 2013Date of Patent: June 23, 2015Assignee: ARRIS Solutions, Inc.Inventors: Laurence Richards, Zhijian Sun, Zoran Maricevic, Dean Painchaud
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Publication number: 20150050025Abstract: Methods, systems, and computer-readable media can facilitate digitizing a broadcast transmission and transporting the digitized broadcast transmission along with one or more digitized narrowcast transmissions to a subscriber. In embodiments, a digitized broadcast transmission and one or more digitized narrowcast transmissions can be separately demodulated and the transmissions can be combined at one or more receiving nodes. In embodiments, a digitized broadcast transmission can be combined with one or more digitized narrowcast transmissions. Lossless compression and de-compression techniques can be used to optimally transport digitized broadcast and narrowcast signals.Type: ApplicationFiled: August 18, 2014Publication date: February 19, 2015Inventors: Marcel F. Schemmann, Zoran Maricevic, Zhijian Sun, Dean Painchaud
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Patent number: 8670668Abstract: Methods and apparatuses are provided to digitize an analog multi-channel RF narrowcast signal in an overlay system by dividing the signal into a plurality of subband signals and digitizing each subband signal using practical A/D converters.Type: GrantFiled: September 19, 2011Date of Patent: March 11, 2014Assignee: ARRIS Enterprises, Inc.Inventors: Zoran Marlcevic, Zhijian Sun, Marcel F. Schemmann, Dean Painchaud
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Publication number: 20130071120Abstract: Methods and apparatuses are provided to digitize an analog multi-channel RF narrowcast signal in an overlay system by dividing the signal into a plurality of subband signals and digitizing each subband signal using practical A/D converters.Type: ApplicationFiled: September 19, 2011Publication date: March 21, 2013Inventors: Zoran Marlcevic, Zhijian Sun, Marcel F. Schemmann, Dean Painchaud
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Publication number: 20130004173Abstract: Methods and apparatuses are provided to modify existing overlay system architectures in a cost effective manner to meet the growing demand for narrowcast services and to position the existing overlay systems for additional future modifications. The implementations of the improved overlay system of this disclosure re-digitize narrowcast analog signals after they have been QAM modulated and upconverted to RF frequencies and replace the analog narrowcast transmitters with digital narrowcast transmitters. In the fiber nodes, the received narrowcast signals are converted back to analog signals and combined with analog broadcast signals for transmission to the service groups.Type: ApplicationFiled: July 1, 2011Publication date: January 3, 2013Inventors: Zoran Maricevic, Marcel F. Schemmann, Dean Painchaud, William P. Dawson, Zhijian Sun
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Publication number: 20120213515Abstract: Methods and systems for aggregating service groups are provided. A chain of fiber nodes in a DOCSIS system is formed to aggregate the service groups served by the fiber nodes to form a super-service group. Multiple channels of a multiplexed data stream are used to transmit the signals from the super-service group. By creating a chain of fiber nodes and using multiple channels to transmit the signals from the super-service group, a DOCSIS system can be more efficiently reconfigured to segment a super-service group once the system has become exhausted.Type: ApplicationFiled: February 18, 2011Publication date: August 23, 2012Inventors: Zoran Maricevic, Marcel F. Schemmann, Zhijian Sun, Dean Painchaud, Jeffrey L. Sauter, William P. Dawson