Patents by Inventor Hatem Ibrahim Zeine
Hatem Ibrahim Zeine 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: 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: 11431112Abstract: Embodiments of the present disclosure describe techniques for reducing human exposure to wireless energy in wireless power delivery environments. In some embodiments, a wireless power reception apparatus configured to receive wireless power from a wireless charging system in a wireless power delivery environment is disclosed. The wireless power reception apparatus includes a control system and an antenna array. In some embodiments, the control system is configured to dynamically adjust transmission and reception radiation patterns of the antenna array to reduce human exposure to wireless radio frequency (RF) energy.Type: GrantFiled: May 11, 2020Date of Patent: August 30, 2022Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Siamak Ebadi, Alireza Pourghorban Saghati, Anas Alfarra, Douglas Williams
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Patent number: 11418065Abstract: The technology described herein is directed to wireless power chargers with integrated power receiving facilities. Indeed, embodiments of the present disclosure describe systems, methods, and apparatuses for implementing wireless power chargers with integrated power receiving facilities. In some implementations, a portable wireless power charging apparatus is disclosed. The portable wireless power charging apparatus includes one or more antennas configured to wirelessly receive directed wireless power from a wireless power transmission system via a first radiative wireless power transfer technology in a multipath wireless power delivery environment.Type: GrantFiled: January 7, 2020Date of Patent: August 16, 2022Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, James J. Wojcik
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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: 20220123600Abstract: Systems and methods for leveraging multipath wireless transmissions for charging devices within multipath signaling environment. Techniques according to the present technology include determining a received signal strength of a radio frequency signal received via a plurality of paths at two or more antennas of a plurality of antennas of an antenna array. The techniques also include configuring parameters for transmission of a wireless power signal over one or more paths of the plurality of paths for which the received signal strength exceeds a threshold value. The techniques further include directing at least a portion of the plurality of antennas to transmit the wireless power signal over the one or more paths according to the parameters. Resulting signal transmissions may thus be directionally biased toward least lossy pathways between a wireless power transmitter and a device in need of receiving wireless power.Type: ApplicationFiled: December 24, 2021Publication date: April 21, 2022Applicant: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Siamak Ebadi
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Patent number: 11271433Abstract: Systems and methods for leveraging multipath wireless transmissions for high data rate communication and charging devices within multipath vehicle environments are described. The techniques include deploying a wireless charger, including an array of antennas, within a vehicle interior. The wireless charger may detect an incoming signal from a client device. Each antenna in the array may determine an offset for the received signal, which is then used to tune parameters for each antenna individually. Upon transmission, the resulting signal is directionally biased toward the least lossy pathways between the device and the charger. These pathways avoid passengers and other sources of signal attenuation. Thus, for a given total power envelope, a greater total signal amplitude may be delivered to the device, with reduced exposure to any occupants of the vehicle. Additionally, the interior of the vehicle may be provisioned to help improve multipath focusing of transmissions.Type: GrantFiled: September 23, 2019Date of Patent: March 8, 2022Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Siamak Ebadi
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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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Publication number: 20210408833Abstract: A circuit includes power reception circuitry to convert an RF signal to a direct current signal for transmission to an energy storage device and/or an electronic device associated with the circuit. The circuit includes voltage regulator circuitry to regulate an output voltage of the circuit based on an internal state thereof. A method incudes receiving, by at least one antenna, the RF signal. The method includes converting, by the circuit coupled to the antenna, the RF signal to a direct current signal. The method includes transmitting the DC signal to the energy storage device and/or the electronic device. The method includes determining the internal state of the circuit. The method includes regulating the output voltage of the circuit based on the internal state. Embodiments enable the addition of wireless charging functionality to existing electronic devices without extensive internal and/or external redesign.Type: ApplicationFiled: September 8, 2021Publication date: December 30, 2021Applicant: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Benjamin Todd Renneberg
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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: 20210399587Abstract: The technology described herein relates to polarization adaptive wireless power transmission systems. In an implementation, a wireless power transmission system is described. The wireless power transmission system includes an antenna array and control circuitry operatively coupled to the antenna array. The control circuitry is configured to determine polarization information of a beacon signal received from a client device at multiple antennas of the antenna array. The beacon signal is transmitted by a client device in a wireless power delivery environment. The control circuitry is further configured to configure polarization information associated with each of the multiple antennas to match the polarization information determined at respective antennas of the multiple antennas. The present technology enables different wireless power receiver clients to have different polarizations. The wireless power transmission system can efficiently send power to the client devices by matching their polarization.Type: ApplicationFiled: September 1, 2021Publication date: December 23, 2021Applicant: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Alireza Pourghorban Saghati, Seyed Ali Malek Abadi
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Publication number: 20210373117Abstract: Techniques are described herein for imaging static or semi-static objects in a wireless power delivery environment and tracking non-static objects contained therein. More specifically, embodiments of the present disclosure describe techniques for determining the relative locations and movement of non-static objects in a wireless power delivery environment. Additionally, the techniques describe methods and system for generation of motion-based maps such as heat (or dwell maps) and flow maps.Type: ApplicationFiled: August 14, 2021Publication date: December 2, 2021Applicant: Ossia Inc.Inventor: Hatem Ibrahim Zeine
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Publication number: 20210359553Abstract: Systems, methods, and apparatuses for receiving wireless power using a wireless power receiver client architecture are disclosed. A simplified wireless power receiver apparatus includes an energy storage device and a radio frequency (RF) transceiver including an antenna. Energy harvester circuitry is coupled to the energy storage device and the RF transceiver, and control circuitry is coupled to the energy storage device, the RF transceiver, and the energy harvester. The control circuitry causes the RF transceiver to: establish a connection with a wireless power transmitter (WPT), transmit a beacon signal to the WPT, and receive a wireless power signal from the WPT. The control circuitry causes the energy harvester to deliver at least a portion of energy of the wireless power signal to the energy storage device for storage therein. In some embodiments, a single antenna is utilized both for transmitting the beacon signal and for receiving the wireless power signal.Type: ApplicationFiled: July 29, 2021Publication date: November 18, 2021Applicant: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Douglas Wayne Williams, James J. Wojcik
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Publication number: 20210339266Abstract: Magnetic systems and methods for oxygen separation and purification from fluids utilizing the paramagnetic properties of oxygen. A magnetic field gradient is established in a tube having a first end in flow communication with a source of a fluid containing oxygen. The fluid is flowed through the tube. The magnetic field gradient causes oxygen to be enriched in the fluid on a first interior side of the tube as compared to a second interior side of the tube. For a fluid like air having oxygen, a paramagnetic substance, and other, e.g., diamagnetic, components like nitrogen, argon, carbon dioxide and water vapor, the technology of the disclosure effectively separates oxygen molecules from the other components in magnetic field gradients of sufficient magnitude.Type: ApplicationFiled: April 28, 2021Publication date: November 4, 2021Applicant: Zeine, Inc.Inventor: Hatem Ibrahim Zeine
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Publication number: 20210321472Abstract: Embodiments of the present disclosure describe techniques for encoding beacon signals in wireless power delivery environments. More specifically, techniques are disclosed for encoding beacon signals to isolate client devices for wireless power delivery in wireless power delivery environments. The beacon signals can be encoded or modulated with a transmission code that is provided to selected clients in the wireless power delivery environment. In this manner, beacon signals from the select clients can be identified and the corresponding client devices isolated for wireless power delivery.Type: ApplicationFiled: June 25, 2021Publication date: October 14, 2021Applicant: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Prithvi Shylendra, Anas Alfarra
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Patent number: 11146093Abstract: Embodiments of the present disclosure describe systems, methods, and apparatuses that actively regulate output voltage of wirelessly chargeable energy storage devices, e.g., wirelessly chargeable batteries. More specifically, techniques are described to emulate low-battery behavior of a standard battery, e.g., a typical AA battery, based on an internal state of the apparatus. The internal state can be determined based on commands provided by or to the apparatus or based on analog information such as, for example, an internal charge state, e.g., of a lithium-ion battery or capacitor.Type: GrantFiled: April 2, 2018Date of Patent: October 12, 2021Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Benjamin Todd Renneberg
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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: 11139694Abstract: The technology described herein relates to polarization adaptive wireless power transmission systems. In an implementation, a wireless power transmission system is described. The wireless power transmission system includes an antenna array and control circuitry operatively coupled to the antenna array. The control circuitry is configured to determine polarization information of a beacon signal received from a client device at multiple antennas of the antenna array. The beacon signal is transmitted by a client device in a wireless power delivery environment. The control circuitry is further configured to configure polarization information associated with each of the multiple antennas to match the polarization information determined at respective antennas of the multiple antennas. The present technology enables different wireless power receiver clients to have different polarizations. The wireless power transmission system can efficiently send power to the client devices by matching their polarization.Type: GrantFiled: February 10, 2020Date of Patent: October 5, 2021Assignee: Ossia Inc.Inventors: Hatem Ibrahim Zeine, Alireza Pourghorban Saghati, Seyed Ali Malek Abadi
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Patent number: 11131745Abstract: Techniques are described herein for imaging static or semi-static objects in a wireless power delivery environment and tracking non-static objects contained therein. More specifically, embodiments of the present disclosure describe techniques for determining the relative locations and movement of non-static objects in a wireless power delivery environment. Additionally, the techniques describe methods and systems for generation of motion-based maps such as heat (or dwell) maps and flow maps.Type: GrantFiled: May 11, 2020Date of Patent: September 28, 2021Assignee: Ossia Inc.Inventor: Hatem Ibrahim Zeine
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Publication number: 20210265870Abstract: An enclosure for a wirelessly chargeable battery includes a housing having a base and an opposing open end, where a hole is bored through the base. The enclosure includes an end piece attached to the housing proximal the base and having an opposing open end. The enclosure includes a first conductive coating formed on an interior surface of the housing and a first surface of the base, and a second conductive coating formed on an interior surface of the end piece and a second surface of the base, where the housing and the end piece are configured in dimensions that conform to standardized battery dimensions. Battery cell(s) may be positioned inside a cavity in the housing, and circuitry may be positioned inside a cavity of the end piece. The enclosure enables highly efficient use of interior space and volume of the enclosure to maximize battery charge capacity.Type: ApplicationFiled: February 23, 2021Publication date: August 26, 2021Inventors: Mehdi Veysi, Caner Guclu, Matthew William Colleen, Cosan Caglayan, Hatem Ibrahim Zeine, Tanner Theel, James J. Wojcik