Patents by Inventor James Francis McElwee
James Francis McElwee 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: 20240128945Abstract: A flexible multi-path RF adaptive tuning network switch architecture that counteracts impedance mismatch conditions arising from various combinations of coupled RF band filters, particularly in a Carrier Aggregation-based (CA) radio system. In one version, a digitally-controlled tunable matching network is coupled to a multi-path RF switch in order to provide adaptive impedance matching for various combinations of RF band filters. Optionally, some or all RF band filters include an associated digitally-controlled filter pre-match network to further improve impedance matching. In a second version, some or all RF band filters coupled to a multi-path RF switch include a digitally-controlled phase matching network to provide necessary per-band impedance matching. Optionally, a digitally-controlled tunable matching network may be included on the common port of the multi-path RF switch to provide additional impedance matching capability.Type: ApplicationFiled: October 23, 2023Publication date: April 18, 2024Inventors: Emre Ayranci, Miles Sanner, Ke Li, James Francis McElwee, Tero Tapio Ranta, Kevin Roberts, Chih-Chieh Cheng
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Patent number: 11804816Abstract: A flexible multi-path RF adaptive tuning network switch architecture that counteracts impedance mismatch conditions arising from various combinations of coupled RF band filters, particularly in a Carrier Aggregation-based (CA) radio system. In one version, a digitally-controlled tunable matching network is coupled to a multi-path RF switch in order to provide adaptive impedance matching for various combinations of RF band filters. Optionally, some or all RF band filters include an associated digitally-controlled filter pre-match network to further improve impedance matching. In a second version, some or all RF band filters coupled to a multi-path RF switch include a digitally-controlled phase matching network to provide necessary per-band impedance matching. Optionally, a digitally-controlled tunable matching network may be included on the common port of the multi-path RF switch to provide additional impedance matching capability.Type: GrantFiled: February 11, 2022Date of Patent: October 31, 2023Assignee: pSemi CorporationInventors: Emre Ayranci, Miles Sanner, Ke Li, James Francis McElwee, Tero Tapio Ranta, Kevin Roberts, Chih-Chieh Cheng
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Publication number: 20220231654Abstract: A flexible multi-path RF adaptive tuning network switch architecture that counteracts impedance mismatch conditions arising from various combinations of coupled RF band filters, particularly in a Carrier Aggregation-based (CA) radio system. In one version, a digitally-controlled tunable matching network is coupled to a multi-path RF switch in order to provide adaptive impedance matching for various combinations of RF band filters. Optionally, some or all RF band filters include an associated digitally-controlled filter pre-match network to further improve impedance matching. In a second version, some or all RF band filters coupled to a multi-path RF switch include a digitally-controlled phase matching network to provide necessary per-band impedance matching. Optionally, a digitally-controlled tunable matching network may be included on the common port of the multi-path RF switch to provide additional impedance matching capability.Type: ApplicationFiled: February 11, 2022Publication date: July 21, 2022Inventors: Emre Ayranci, Miles Sanner, Ke Li, James Francis McElwee, Tero Tapio Ranta, Kevin Roberts, Chih-Chieh Cheng
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Patent number: 11251765Abstract: A flexible multi-path RF adaptive tuning network switch architecture that counteracts impedance mismatch conditions arising from various combinations of coupled RF band filters, particularly in a Carrier Aggregation-based (CA) radio system. In one version, a digitally-controlled tunable matching network is coupled to a multi-path RF switch in order to provide adaptive impedance matching for various combinations of RF band filters. Optionally, some or all RF band filters include an associated digitally-controlled filter pre-match network to further improve impedance matching. In a second version, some or all RF band filters coupled to a multi-path RF switch include a digitally-controlled phase matching network to provide necessary per-band impedance matching. Optionally, a digitally-controlled tunable matching network may be included on the common port of the multi-path RF switch to provide additional impedance matching capability.Type: GrantFiled: April 17, 2020Date of Patent: February 15, 2022Assignee: pSemi CorporationInventors: Emre Ayranci, Miles Sanner, Ke Li, James Francis McElwee, Tero Tapio Ranta, Kevin Roberts, Chih-Chieh Cheng
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Publication number: 20200321935Abstract: A flexible multi-path RF adaptive tuning network switch architecture that counteracts impedance mismatch conditions arising from various combinations of coupled RF band filters, particularly in a Carrier Aggregation-based (CA) radio system. In one version, a digitally-controlled tunable matching network is coupled to a multi-path RF switch in order to provide adaptive impedance matching for various combinations of RF band filters. Optionally, some or all RF band filters include an associated digitally-controlled filter pre-match network to further improve impedance matching. In a second version, some or all RF band filters coupled to a multi-path RF switch include a digitally-controlled phase matching network to provide necessary per-band impedance matching. Optionally, a digitally-controlled tunable matching network may be included on the common port of the multi-path RF switch to provide additional impedance matching capability.Type: ApplicationFiled: April 17, 2020Publication date: October 8, 2020Inventors: Emre Ayranci, Miles Sanner, Ke Li, James Francis McElwee, Tero Tapio Ranta, Kevin Roberts, Chih-Chieh Cheng
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Patent number: 10700658Abstract: A flexible multi-path RF adaptive tuning network switch architecture that counteracts impedance mismatch conditions arising from various combinations of coupled RF band filters, particularly in a Carrier Aggregation-based (CA) radio system. In one version, a digitally-controlled tunable matching network is coupled to a multi-path RF switch in order to provide adaptive impedance matching for various combinations of RF band filters. Optionally, some or all RF band filters include an associated digitally-controlled filter pre-match network to further improve impedance matching. In a second version, some or all RF band filters coupled to a multi-path RF switch include a digitally-controlled phase matching network to provide necessary per-band impedance matching. Optionally, a digitally-controlled tunable matching network may be included on the common port of the multi-path RF switch to provide additional impedance matching capability.Type: GrantFiled: July 6, 2018Date of Patent: June 30, 2020Assignee: pSemi CorporationInventors: Emre Ayranci, Miles Sanner, Ke Li, James Francis McElwee, Tero Tapio Ranta, Kevin Roberts, Chih-Chieh Cheng
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Publication number: 20190013790Abstract: A flexible multi-path RF adaptive tuning network switch architecture that counteracts impedance mismatch conditions arising from various combinations of coupled RF band filters, particularly in a Carrier Aggregation-based (CA) radio system. In one version, a digitally-controlled tunable matching network is coupled to a multi-path RF switch in order to provide adaptive impedance matching for various combinations of RF band filters. Optionally, some or all RF band filters include an associated digitally-controlled filter pre-match network to further improve impedance matching. In a second version, some or all RF band filters coupled to a multi-path RF switch include a digitally-controlled phase matching network to provide necessary per-band impedance matching. Optionally, a digitally-controlled tunable matching network may be included on the common port of the multi-path RF switch to provide additional impedance matching capability.Type: ApplicationFiled: July 6, 2018Publication date: January 10, 2019Inventors: Emre Ayranci, Miles Sanner, Ke Li, James Francis McElwee, Tero Tapio Ranta, Kevin Roberts, Chih-Chieh Cheng
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Patent number: 8433265Abstract: In one embodiment, a method includes generating a first current in a bias current circuit and biasing an amplifier with the first current when the amplifier is operating in a first temperature range, and generating a second current in the bias current circuit and biasing the amplifier with the second current when the amplifier is operating in a second temperature range. These two currents may correspond to different profiles with respect to temperature, to maintain substantial linearity of the amplifier over the temperature ranges.Type: GrantFiled: October 14, 2009Date of Patent: April 30, 2013Assignee: Javelin Semiconductor, Inc.Inventor: James Francis McElwee
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Publication number: 20110086594Abstract: In one embodiment, a method includes generating a first current in a bias current circuit and biasing an amplifier with the first current when the amplifier is operating in a first temperature range, and generating a second current in the bias current circuit and biasing the amplifier with the second current when the amplifier is operating in a second temperature range. These two currents may correspond to different profiles with respect to temperature, to maintain substantial linearity of the amplifier over the temperature ranges.Type: ApplicationFiled: October 14, 2009Publication date: April 14, 2011Inventor: James Francis McElwee
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Patent number: 7340662Abstract: GBit/s transceiver with built-in self test features. A method is disclosed for testing the operation of a transceiver having a digital processing section and an analog section, each having a transmit portion and a receive portion, the analog portions adaptable to interface with an analog network. The transceiver is first configured to operate in a test mode. In the test mode, the transmit portion of the digital processing section is activated to generate data to be transmitted by the transmit portion of the analog section. The receive portion of the analog section and the receive portion of the digital processing section are operated to receive data. Thereafter, the parametrics of select portions of the receive portion of the digital processing section are examined during the receipt of data by the receive portion of the analog section and processing thereof by the receive portion of the digital processing section.Type: GrantFiled: April 30, 2003Date of Patent: March 4, 2008Inventors: James Francis McElwee, Eric Kimball, John James Paulos, Magesh Valliappan
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Patent number: 5872446Abstract: A low voltage CMOS multiplier uses a transconductance stage to generate a dynamic bias current which is used to compensate for non-linear terms in a Gilbert Cell multiplier circuit. Common mode dependence is minimized by using balanced differential input stages for both the transconductance and multiplier stages.Type: GrantFiled: August 12, 1997Date of Patent: February 16, 1999Assignee: International Business Machines CorporationInventors: Hayden Clavie Cranford, Jr., Ronald Steven Gyurcsik, James Francis McElwee, Jr.