Patents by Inventor Michael James Mouser
Michael James Mouser 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: 12218738Abstract: A technology is described for a repeater system configured to provide services via a cloud-computing environment. The repeater system can comprise an n-band repeater, wherein n is a positive integer greater than 0; a server port; a donor port; one or more processors and memory in communication with the n-band repeater; and a scanning receiver coupled to the one or more processors and memory, wherein the scanning receiver is configured to scan one or more of the n bands of the n-band repeater and communicate carrier-specific information for the one or more of the n bands to a computer server located in the cloud-computing environment to enable access to the carrier-specific information from the cloud-computing environment.Type: GrantFiled: December 28, 2020Date of Patent: February 4, 2025Assignee: Wilson Electronics, LLCInventors: Michael James Mouser, Stephen Todd Fariss, Stephen McBride, Philip Anthony Weaver, Douglas Edward Bohls, Christopher Ken Ashworth, Dale Robert Anderson, William Gerald Sarver, Jr., Ilesh V. Patel
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Patent number: 12063094Abstract: Technology for a desktop signal booster is disclosed. The desktop signal booster can include one or more amplification and filtering signal paths configured to amplify and filter a cellular signal for a wireless device. The desktop signal booster can include wireless charging circuitry configured to wirelessly charge the wireless device when the wireless device is placed within a selected distance from the desktop signal booster.Type: GrantFiled: October 11, 2022Date of Patent: August 13, 2024Assignee: Wilson Electronics, LLCInventors: Christopher Ken Ashworth, Michael James Mouser
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Publication number: 20240154685Abstract: A technology is described for a repeater comprising a modem configured to function as a time division duplex (TDD) uplink/downlink modem configured as a scanning sync detection module (SDM) configured to determine an UL/DL configuration information and scan channels for monitoring information. The modem can be configured to: identify one or more frequency ranges associated with a plurality of cellular carriers; scan the one or more frequency ranges; identify monitoring information that includes cellular carrier specific information for the one or more frequency ranges associated with the plurality of cellular carriers; and provide the monitoring information to the repeater for communication to the remote server.Type: ApplicationFiled: November 3, 2023Publication date: May 9, 2024Inventors: Michael James Mouser, Stephen Todd Fariss, Dale Robert Anderson, Christopher Ken Ashworth, Ilesh V. Patel, Glen Raggio, William Gerald Sarver, Philip Anthony Weaver, Douglas Edward Bohls
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Publication number: 20240080103Abstract: A technology is described for a repeater. The repeater can comprise a first antenna port, a second antenna port, one or more first direction amplification and filtering paths, one or more second direction amplification and filtering paths, and a controller. The first antenna port can be configured to be coupled to a first antenna. The second antenna port can be configured to be coupled to a second antenna. The one or more first direction amplification and filtering paths can be coupled between the first antenna port and the second antenna port. The one or more second direction amplification and filtering paths can be coupled between the first antenna port and the second antenna port. The controller can be configured to switch the repeater between a radio frequency (RF) mode or a fiber optic mode.Type: ApplicationFiled: August 4, 2023Publication date: March 7, 2024Inventors: Stephen Todd Fariss, Michael James Mouser, Ilesh V. Patel, Dale Robert Anderson, Christopher Ken Ashworth
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Publication number: 20230396316Abstract: Technology for a desktop signal booster is disclosed. The desktop signal booster can include one or more amplification and filtering signal paths configured to amplify and filter a cellular signal for a wireless device. The desktop signal booster can include wireless charging circuitry configured to wirelessly charge the wireless device when the wireless device is placed within a selected distance from the desktop signal booster.Type: ApplicationFiled: August 16, 2023Publication date: December 7, 2023Inventors: Christopher Ken Ashworth, Michael James Mouser
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Publication number: 20230097593Abstract: Technology for a desktop signal booster is disclosed. The desktop signal booster can include one or more amplification and filtering signal paths configured to amplify and filter a cellular signal for a wireless device. The desktop signal booster can include wireless charging circuitry configured to wirelessly charge the wireless device when the wireless device is placed within a selected distance from the desktop signal booster.Type: ApplicationFiled: October 11, 2022Publication date: March 30, 2023Inventors: Christopher Ken Ashworth, Michael James Mouser
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Patent number: 11387893Abstract: A technology is described for a repeater system comprising a repeater and a scanning receiver. The repeater can comprise a first port, a second port, one or more amplification and filtering paths coupled between the first port and the second port and one or more processors and memory. The scanning receiver can be configured to: identify one or more frequency ranges associated with a plurality of cellular carriers; scan the one or more frequency ranges; identify cellular carrier specific information for the one or more frequency ranges associated with the plurality of cellular carriers; and provide the cellular carrier specific information to the repeater.Type: GrantFiled: December 28, 2020Date of Patent: July 12, 2022Assignee: Wilson Electronics, LLCInventors: Michael James Mouser, Stephen Todd Fariss, Dale Robert Anderson, William Gerald Sarver, Jr., Ilesh V. Patel, Christopher Ken Ashworth, Philip Anthony Weaver, Douglas Edward Bohls
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Patent number: 11223384Abstract: Technology for a low-noise signal chain is disclosed. The low-noise signal chain can include a signal path configured to carry a signal. The low-noise signal chain can include a bypassable amplifier communicatively coupled to the signal path. The low-noise signal chain can include a switchable band pass filter communicatively coupled to the signal path. The low-noise signal chain can include an amplifier bypass path communicatively coupled to the signal path. The signal can be configured to be directed to the amplifier bypass path to bypass the bypassable amplifier. The low-noise signal chain can include a band pass filter bypass path communicatively coupled to the signal path. The signal can be configured to be directed to the band pass filter bypass path to bypass the switchable band pass filter.Type: GrantFiled: July 20, 2020Date of Patent: January 11, 2022Assignee: Wilson Electronics, LLCInventors: Patrick Lee Cook, Christopher K. Ashworth, Michael James Mouser
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Publication number: 20210273715Abstract: Technology for a desktop signal booster is disclosed. The desktop signal booster can include one or more amplification and filtering signal paths configured to amplify and filter a cellular signal for a wireless device. The desktop signal booster can include wireless charging circuitry configured to wirelessly charge the wireless device when the wireless device is placed within a selected distance from the desktop signal booster.Type: ApplicationFiled: May 13, 2021Publication date: September 2, 2021Inventors: Christopher Ken Ashworth, Michael James Mouser
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Patent number: 11102801Abstract: Technology for a signal booster is disclosed. The signal booster can identify a current location of the signal booster. The signal booster can determine one or more bands in which signals are permitted to be boosted by the signal booster based on the current location of the signal booster. The signal booster can boost signals in the one or more bands that are permitted to be boosted by the signal booster for the current location of the signal booster.Type: GrantFiled: May 29, 2020Date of Patent: August 24, 2021Assignee: Wilson Electronics, LLCInventors: Christopher Ken Ashworth, Patrick Lee Cook, Michael James Mouser
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Patent number: 11095359Abstract: Technology for a desktop signal booster is disclosed. The desktop signal booster can include a cellular signal amplifier, an integrated device antenna coupled to the cellular signal amplifier, an integrated node antenna coupled to the cellular signal amplifier, and wireless charging circuitry. The cellular signal amplifier can be configured to amplify signals for a wireless device, and the wireless device can be within a selected distance from the desktop signal booster. The integrated device antenna can be configured to transmit signals from the cellular signal amplifier to the wireless device. The integrated node antenna can be configured to transmit signals from the cellular signal amplifier to a base station. The wireless charging circuitry can be configured to wirelessly charge the wireless device when the wireless device is placed in proximity to the desktop signal booster.Type: GrantFiled: May 29, 2020Date of Patent: August 17, 2021Assignee: Wilson Electronics, LLCInventors: Christopher Ken Ashworth, Michael James Mouser
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Publication number: 20210203404Abstract: A technology is described for a repeater system configured to provide services via a cloud-computing environment. The repeater system can comprise an n-band repeater, wherein n is a positive integer greater than 0; a server port; a donor port; one or more processors and memory in communication with the n-band repeater; and a scanning receiver coupled to the one or more processors and memory, wherein the scanning receiver is configured to scan one or more of the n bands of the n-band repeater and communicate carrier-specific information for the one or more of the n bands to a computer server located in the cloud-computing environment to enable access to the carrier-specific information from the cloud-computing environment.Type: ApplicationFiled: December 28, 2020Publication date: July 1, 2021Inventors: Michael James Mouser, Stephen Todd Fariss, Stephen McBride, Philip Anthony Weaver, Douglas Edward Bohls, Christopher Ken Ashworth, Dale Robert Anderson, William Gerald Sarver, JR., Ilesh V. Patel
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Publication number: 20210203405Abstract: A technology is described for a repeater system comprising a repeater and a scanning receiver. The repeater can comprise a first port, a second port, one or more amplification and filtering paths coupled between the first port and the second port and one or more processors and memory. The scanning receiver can be configured to: identify one or more frequency ranges associated with a plurality of cellular carriers; scan the one or more frequency ranges; identify cellular carrier specific information for the one or more frequency ranges associated with the plurality of cellular carriers; and provide the cellular carrier specific information to the repeater.Type: ApplicationFiled: December 28, 2020Publication date: July 1, 2021Inventors: Michael James Mouser, Stephen Todd Fariss, Dale Robert Anderson, William Gerald Sarver, Ilesh V. Patel, Christopher Ken Ashworth, Philip Anthony Weaver, Douglas Edward Bohls
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Patent number: 11038542Abstract: A technology is described for a bi-directional repeater having a switchable antenna port. The repeater can comprise a switchable common port, a switchable second-band port, and a switchable third-band port. The repeater can have a first-band amplification and filtering path coupled to the switchable common port via a first path of a first multiplexer. The repeater can have a second-band amplification and filtering path coupled to one of the switchable common port via a second path of the first multiplexer, a first path of a first radio frequency (RF) switch, and a first path of a second multiplexer. The repeater can have a third band amplification and filtering path coupled to the switchable common port via a first path of a second RF switch, the second path of the second multiplexer, the first path of the first RF switch, and the second path of the first diplexer.Type: GrantFiled: December 27, 2019Date of Patent: June 15, 2021Assignee: Wilson Electronics, LLCInventors: Dale Robert Anderson, Christopher Ken Ashworth, Michael James Mouser
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Patent number: 11012143Abstract: Technology for a signal repeater is disclosed. The signal repeater can include a cellular signal amplifier configured to amplify signals for a wireless device. The signal repeater can include an integrated satellite transceiver coupled to the cellular signal amplifier and configured to communicate signals to one or more satellites. The integrated satellite transceiver can be used when cellular signals are unavailable.Type: GrantFiled: December 31, 2018Date of Patent: May 18, 2021Assignee: Wilson Electronics, LLCInventors: Christopher Ken Ashworth, Michael James Mouser
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Patent number: 10992371Abstract: Technology for a desktop signal booster is disclosed. The desktop signal booster can include one or more amplification and filtering signal paths configured to amplify and filter a cellular signal for a wireless device. The desktop signal booster can include wireless charging circuitry configured to wirelessly charge the wireless device when the wireless device is placed within a selected distance from the desktop signal booster.Type: GrantFiled: February 11, 2019Date of Patent: April 27, 2021Assignee: Wilson Electronics, LLCInventors: Christopher Ken Ashworth, Michael James Mouser
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Patent number: 10925115Abstract: Technology for a repeater is disclosed. The repeater can include a first defined connection. The repeater can include a first coaxial cable connector configured to be communicatively coupled to the first defined connection. The repeater can include a repeater unit communicatively coupled to the first defined connection. The repeater can include a controller configured to adjust a gain or output power of the repeater unit that compensates for insertion losses between the first coaxial cable connector and the first defined connection.Type: GrantFiled: November 19, 2019Date of Patent: February 16, 2021Assignee: Wilson Electronics, LLCInventors: Christopher Ken Ashworth, Patrick Lee Cook, Michael James Mouser
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Publication number: 20210013923Abstract: Technology for a low-noise signal chain is disclosed. The low-noise signal chain can include a signal path configured to carry a signal. The low-noise signal chain can include a bypassable amplifier communicatively coupled to the signal path. The low-noise signal chain can include a switchable band pass filter communicatively coupled to the signal path. The low-noise signal chain can include an amplifier bypass path communicatively coupled to the signal path. The signal can be configured to be directed to the amplifier bypass path to bypass the bypassable amplifier. The low-noise signal chain can include a band pass filter bypass path communicatively coupled to the signal path. The signal can be configured to be directed to the band pass filter bypass path to bypass the switchable band pass filter.Type: ApplicationFiled: July 20, 2020Publication date: January 14, 2021Inventors: Patrick Lee Cook, Christopher K. Ashworth, Michael James Mouser
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Patent number: 10862529Abstract: Technology for a signal booster is disclosed. The signal booster can include a signal amplifier configured to amplify and filter signals for a wireless device. The signal booster can include one or more detectors configured to detect power levels of the signals. The signal amplifier can include at least one of: one or more bypassable amplifiers or one or more switchable band pass filters that are configurable depending on detected power levels of the signals.Type: GrantFiled: February 25, 2019Date of Patent: December 8, 2020Assignee: Wilson Electronics, LLCInventors: Patrick Lee Cook, Christopher K. Ashworth, Michael James Mouser
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Publication number: 20200296740Abstract: Technology for a signal booster is disclosed. The signal booster can identify a current location of the signal booster. The signal booster can determine one or more bands in which signals are permitted to be boosted by the signal booster based on the current location of the signal booster. The signal booster can boost signals in the one or more bands that are permitted to be boosted by the signal booster for the current location of the signal booster.Type: ApplicationFiled: May 29, 2020Publication date: September 17, 2020Inventors: Christopher Ken Ashworth, Patrick Lee Cook, Michael James Mouser