Patents by Inventor Ahmad Moghaddam
Ahmad Moghaddam 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: 20230361629Abstract: A method for operating an Internet of Things (IoT) device may be implemented in a wireless power receiver (WPR) and may include the steps of: transmitting a beacon signal (BS) to a wireless power transmitter (WPT), responsively receiving a wireless power signal (WPS) from the WPT, transducing the WPS to an electric current for charging an energy storage device, receiving data representative of IoT information from the IoT device, and transmitting the data representative of IoT information to the WPT. The method may be further implemented in the WPT and may include the steps-performed by the WPT-of: receiving the BS from the WPR, responsively transmitting the WPS to the WPR, receiving the data representative of IoT information, and at least one of: causing the IoT information to be stored in a memory storage device, and relaying the IoT information to a subsystem in communication with the WPT.Type: ApplicationFiled: July 13, 2023Publication date: November 9, 2023Applicant: Ossia Inc.Inventors: Ahmad Moghaddam, Hatem Ibrahim Zeine
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Patent number: 11742705Abstract: Systems and methods are described for receiving wireless power and providing wired power. In some embodiments, a predictive phase estimation apparatus comprises a transceiver module configured to receive a plurality of beaconing signals from a wireless client during a beacon cycle. The predictive phase estimation apparatus also comprises a phase compensation module configured to store the received plurality of beaconing signals, a phase predictor module is coupled to the transceiver module and configured to calculate predictive phases based on the received plurality of beaconing signals and based on beaconing signals received from the wireless client prior to the beacon cycle, and a signal converter coupled to the transceiver module. The signal converter is configured to form transmission signals based on the predictive phases and supply the transmission signals to the transceiver module. The transceiver module also transmits the transmission signals for delivery of wireless power to the wireless client.Type: GrantFiled: September 30, 2022Date of Patent: August 29, 2023Assignee: Ossia Inc.Inventors: Ahmad Moghaddam, Hatem Ibrahim Zeine
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Publication number: 20230024476Abstract: Systems and methods are described for receiving wireless power and providing wired power. In some embodiments, a predictive phase estimation apparatus comprises a transceiver module configured to receive a plurality of beaconing signals from a wireless client during a beacon cycle. The predictive phase estimation apparatus also comprises a phase compensation module configured to store the received plurality of beaconing signals, a phase predictor module is coupled to the transceiver module and configured to calculate predictive phases based on the received plurality of beaconing signals and based on beaconing signals received from the wireless client prior to the beacon cycle, and a signal converter coupled to the transceiver module. The signal converter is configured to form transmission signals based on the predictive phases and supply the transmission signals to the transceiver module. The transceiver module also transmits the transmission signals for delivery of wireless power to the wireless client.Type: ApplicationFiled: September 30, 2022Publication date: January 26, 2023Applicant: Ossia Inc.Inventors: Ahmad Moghaddam, Hatem Ibrahim Zeine
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Patent number: 11469628Abstract: Systems and methods are described for receiving wireless power and providing wired power. In some embodiments, a predictive phase estimation apparatus comprises a transceiver module configured to receive a plurality of beaconing signals from a wireless client during a beacon cycle. The predictive phase estimation apparatus also comprises a phase compensation module configured to store the received plurality of beaconing signals, a phase predictor module is coupled to the transceiver module and configured to calculate predictive phases based on the received plurality of beaconing signals and based on beaconing signals received from the wireless client prior to the beacon cycle, and a signal converter coupled to the transceiver module. The signal converter is configured to form transmission signals based on the predictive phases and supply the transmission signals to the transceiver module. The transceiver module also transmits the transmission signals for delivery of wireless power to the wireless client.Type: GrantFiled: June 21, 2021Date of Patent: October 11, 2022Assignee: Ossia Inc.Inventors: Ahmad Moghaddam, Hatem Ibrahim Zeine
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Publication number: 20220294276Abstract: Various embodiments of the present technology relate generally to wireless power systems. More specifically, some embodiments relate to the use of time reversal techniques utilizing time diversity (e.g., different multipath arrivals at the same antenna) to achieve coherency from the same transmission node. For example, instead of initiating outgoing transmissions (e.g., power signals) at the same time, various embodiments can initiate the outgoing signals from the various antennas in a staggered timing that is a reversal of the arrival times of an incoming signal. As a result of staggering the start of the outgoing signals, the signals will arrive at the destination at approximately the same time even though they have traveled different paths having different propagation delays.Type: ApplicationFiled: May 27, 2022Publication date: September 15, 2022Applicant: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Ahmad Moghaddam
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Patent number: 11349348Abstract: Various embodiments of the present technology relate generally to wireless power systems. More specifically, some embodiments relate to the use of time reversal techniques utilizing time diversity (e.g., different multipath arrivals at the same antenna) to achieve coherency from the same transmission node. For example, instead of initiating outgoing transmissions (e.g., power signals) at the same time, various embodiments can initiate the outgoing signals from the various antennas in a staggered timing that is a reversal of the arrival times of an incoming signal. As a result of staggering the start of the outgoing signals, the signals will arrive at the destination at approximately the same time even though they have traveled different paths having different propagation delays.Type: GrantFiled: September 16, 2019Date of Patent: May 31, 2022Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Ahmad Moghaddam
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Publication number: 20220052560Abstract: Systems and methods are described for operating a wireless power transmission system. The wireless power transmission system receives a beacon signal delivered from and initiated by a wireless power receiver client configured to receive wireless power from the wireless power transmission system. The wireless power transmission system also delivers wireless power to the wireless power receiver client and simultaneously detects for additional encoded beacon signals delivered from and initiated by additional wireless power receiver clients.Type: ApplicationFiled: October 28, 2021Publication date: February 17, 2022Applicant: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Dale Donald Mayes, Ahmad Moghaddam
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Patent number: 11211830Abstract: Systems and methods are described for operating a wireless power transmission system. The wireless power transmission system receives an encoded beacon signal delivered from and initiated by a wireless power receiver client configured to receive wireless power from the wireless power transmission system. The wireless power transmission system also delivers wireless power to the wireless power receiver client and simultaneously detects for additional encoded beacon signals delivered from and initiated by additional wireless power receiver clients.Type: GrantFiled: December 22, 2017Date of Patent: December 28, 2021Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Dale Donald Mayes, Ahmad Moghaddam
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Publication number: 20210313845Abstract: Systems and methods are described for receiving wireless power and providing wired power. In some embodiments, a predictive phase estimation apparatus comprises a transceiver module configured to receive a plurality of beaconing signals from a wireless client during a beacon cycle. The predictive phase estimation apparatus also comprises a phase compensation module configured to store the received plurality of beaconing signals, a phase predictor module is coupled to the transceiver module and configured to calculate predictive phases based on the received plurality of beaconing signals and based on beaconing signals received from the wireless client prior to the beacon cycle, and a signal converter coupled to the transceiver module. The signal converter is configured to form transmission signals based on the predictive phases and supply the transmission signals to the transceiver module. The transceiver module also transmits the transmission signals for delivery of wireless power to the wireless client.Type: ApplicationFiled: June 21, 2021Publication date: October 7, 2021Applicant: Ossia Inc.Inventors: Ahmad Moghaddam, Hatem Ibrahim Zeine
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Patent number: 11101705Abstract: Timing Acquisition Module (TAM) configured for use in or associated with a WTPS and associated methods, apparatus, and systems. The TAM is configured to receive encoded beacons broadcast by wireless power receiver clients requesting power on demand. The TAM decodes the encoded beacons to identify which client broadcast the beacon and notifies the WPTS that a client is requesting power, along with an identifier of that client. In response, the WPTS transmits wireless power signals to the client to service the power request. The WPTS and client may use separate beacons or signals to command the client to broadcast its WPTS beacon, whereby phases of the beacon signal are detected by antennas in the WPTS antenna array and processed to direct the wireless power signals from the WPTS to the client. Multiple apparatus including a combination of a WPTS and TAM may be implemented in a wireless power environment in a cooperative manner, enabling a client to move within the environment while supporting power on demand.Type: GrantFiled: January 9, 2019Date of Patent: August 24, 2021Assignee: Ossia Inc.Inventors: Hatem Zeine, Mark Zeid, Ahmad Moghaddam
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Patent number: 11075549Abstract: Systems and methods are described for receiving wireless power and providing wired power. In some embodiments, a predictive phase estimation apparatus comprises a transceiver module configured to receive a plurality of beaconing signals from a wireless client during a beacon cycle. The predictive phase estimation apparatus also comprises a phase compensation module configured to store the received plurality of beaconing signals, a phase predictor module is coupled to the transceiver module and configured to calculate predictive phases based on the received plurality of beaconing signals and based on beaconing signals received from the wireless client prior to the beacon cycle, and a signal converter coupled to the transceiver module. The signal converter is configured to form transmission signals based on the predictive phases and supply the transmission signals to the transceiver module. The transceiver module also transmits the transmission signals for delivery of wireless power to the wireless client.Type: GrantFiled: March 27, 2019Date of Patent: July 27, 2021Assignee: Ossia Inc.Inventors: Ahmad Moghaddam, Hatem Ibrahim Zeine
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Patent number: 10771995Abstract: For determining operational status of components of a wireless signal transmission environment, a signal is received from a client power receiver (CPR), and at least one waveform characteristic value of the signal is calculated. Based on the determined waveform characteristic value(s), a current transceiver system operational status is computed for the CPR at a current location. The determined current transceiver system operational status is compared with a prior-stored last known good transceiver system operational status for the CPR at the current location, and it is determined if, as a result of the comparing, the current transceiver system operational status matches the prior-stored last known good transceiver system operational status for the CPR at the current location. Determining a presence or an absence of the match facilitates identifying one of a presence and an absence of: functional problem(s) in: at least one of the transceiver system and the CPR.Type: GrantFiled: April 8, 2019Date of Patent: September 8, 2020Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Ahmad Moghaddam
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Publication number: 20200220391Abstract: Timing Acquisition Module (TAM) configured for use in or associated with a WTPS and associated methods, apparatus, and systems. The TAM is configured to receive encoded beacons broadcast by wireless power receiver clients requesting power on demand. The TAM decodes the encoded beacons to identify which client broadcast the beacon and notifies the WPTS that a client is requesting power, along with an identifier of that client. In response, the WPTS transmits wireless power signals to the client to service the power request. The WPTS and client may use separate beacons or signals to command the client to broadcast its WPTS beacon, whereby phases of the beacon signal are detected by antennas in the WPTS antenna array and processed to direct the wireless power signals from the WPTS to the client. Multiple apparatus including a combination of a WPTS and TAM may be implemented in a wireless power environment in a cooperative manner, enabling a client to move within the environment while supporting power on demand.Type: ApplicationFiled: January 9, 2019Publication date: July 9, 2020Applicant: Ossia Inc.Inventors: Hatem Zeine, Mark Zeid, Ahmad Moghaddam
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Patent number: 10673284Abstract: Various embodiments of the present technology relate generally to wireless power systems. More specifically, some embodiments relate to identifying and correcting failures within wireless power systems (or any other system that is subject to design/device fault). Some embodiments monitor multiple states/control signals in a wireless power transmission system having an array of antenna. A determination can be made as to whether each of the multiple states are in an expected configuration (or make the expected transitions implying different states during normal operations). For examples, this can include identifying whether each antenna in the array of antennas is in a transmitting or receiving state. Any problems (e.g., timing problems, antennas stuck in a Tx or Rx state, controller malfunction, etc.) within the system can be detected by analyzing the multiple states/control signals and compare them against expected behavior/configuration.Type: GrantFiled: September 22, 2017Date of Patent: June 2, 2020Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Ahmad Moghaddam
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Publication number: 20200091968Abstract: A method of operating a transceiver system includes receiving, from a client power receiver, a signal at a plurality of antenna elements of an antenna array. The method also includes determining, by at least one of the antenna array and a processor of the transceiver system, and based at least in part on a fixed geometry of the plurality of antenna elements, a value of at least one waveform characteristic of the received signal. The method further includes computing, by the processor and based on the determined value of the at least one waveform characteristic, a transmission path of the signal from the client power receiver to each antenna element. The method also includes, assigning, by the processor and based on the computed transmission path, a location of the client power receiver in a wireless data transmission and power delivery environment.Type: ApplicationFiled: September 23, 2019Publication date: March 19, 2020Applicant: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Ahmad Moghaddam
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Publication number: 20200014251Abstract: Various embodiments of the present technology relate generally to wireless power systems. More specifically, some embodiments relate to the use of time reversal techniques utilizing time diversity (e.g., different multipath arrivals at the same antenna) to achieve coherency from the same transmission node. For example, instead of initiating outgoing transmissions (e.g., power signals) at the same time, various embodiments can initiate the outgoing signals from the various antennas in a staggered timing that is a reversal of the arrival times of an incoming signal. As a result of staggering the start of the outgoing signals, the signals will arrive at the destination at approximately the same time even though they have traveled different paths having different propagation delays.Type: ApplicationFiled: September 16, 2019Publication date: January 9, 2020Applicant: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Ahmad Moghaddam
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Publication number: 20190393736Abstract: Systems and methods are described for receiving wireless power and providing wired power. In some embodiments, a predictive phase estimation apparatus comprises a transceiver module configured to receive a plurality of beaconing signals from a wireless client during a beacon cycle. The predictive phase estimation apparatus also comprises a phase compensation module configured to store the received plurality of beaconing signals, a phase predictor module is coupled to the transceiver module and configured to calculate predictive phases based on the received plurality of beaconing signals and based on beaconing signals received from the wireless client prior to the beacon cycle, and a signal converter coupled to the transceiver module. The signal converter is configured to form transmission signals based on the predictive phases and supply the transmission signals to the transceiver module. The transceiver module also transmits the transmission signals for delivery of wireless power to the wireless client.Type: ApplicationFiled: March 27, 2019Publication date: December 26, 2019Applicant: Ossia Inc.Inventors: Ahmad Moghaddam, Hatem Ibrahim Zeine
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Publication number: 20190306735Abstract: For determining operational status of components of a wireless signal transmission environment, a signal is received from a client power receiver (CPR), and at least one waveform characteristic value of the signal is calculated. Based on the determined waveform characteristic value(s), a current transceiver system operational status is computed for the CPR at a current location. The determined current transceiver system operational status is compared with a prior-stored last known good transceiver system operational status for the CPR at the current location, and it is determined if, as a result of the comparing, the current transceiver system operational status matches the prior-stored last known good transceiver system operational status for the CPR at the current location. Determining a presence or an absence of the match facilitates identifying one of a presence and an absence of: functional problem(s) in: at least one of the transceiver system and the CPR.Type: ApplicationFiled: April 8, 2019Publication date: October 3, 2019Applicant: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Ahmad Moghaddam
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Patent number: 10425131Abstract: A method of operating a transceiver system includes receiving, from a client power receiver, a signal at a plurality of antenna elements of an antenna array. The method also includes determining, by at least one of the antenna array and a processor of the transceiver system, and based at least in part on a fixed geometry of the plurality of antenna elements, a value of at least one waveform characteristic of the received signal. The method further includes computing, by the processor and based on the determined value of the at least one waveform characteristic, a transmission path of the signal from the client power receiver to each antenna element. The method also includes, assigning, by the processor and based on the computed transmission path, a location of the client power receiver in a wireless data transmission and power delivery environment.Type: GrantFiled: April 6, 2017Date of Patent: September 24, 2019Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Ahmad Moghaddam
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Patent number: 10418861Abstract: Various embodiments of the present technology relate generally to wireless power systems. More specifically, some embodiments relate to the use of time reversal techniques utilizing time diversity (e.g., different multipath arrivals at the same antenna) to achieve coherency from the same transmission node. For example, instead of initiating outgoing transmissions (e.g., power signals) at the same time, various embodiments can initiate the outgoing signals from the various antennas in a staggered timing that is a reversal of the arrival times of an incoming signal. As a result of staggering the start of the outgoing signals, the signals will arrive at the destination at approximately the same time even though they have traveled different paths having different propagation delays.Type: GrantFiled: December 22, 2017Date of Patent: September 17, 2019Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Ahmad Moghaddam