Patents by Inventor Mohit Narang
Mohit Narang 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: 10739871Abstract: A wireless power transmission system may include a wireless power transmitting device such as a tablet computer and a wireless power receiving device such as a computer stylus. A wireless power transmitting capacitor electrode may be formed in the tablet computer. A wireless power receiving capacitor electrode may be formed in the computer stylus. The transmitting capacitor electrode may be driven by a drive signal having a frequency of 900 MHz or greater to produce wireless power. The wireless power may be transmitted from the transmitting capacitor electrode to the receiving capacitor electrode on the stylus via near field capacitive coupling. The transmitting and receiving capacitor electrodes may each include conductive traces on dielectric substrates. The conductive traces may follow meandering paths to maximize the possible capacitive coupling efficiency between the capacitor electrodes and thus the end-to-end charging efficiency of the wireless power transmission system.Type: GrantFiled: March 1, 2018Date of Patent: August 11, 2020Assignee: Apple Inc.Inventors: Bing Jiang, Blake R. Marshall, Indranil S. Sen, Liquan Tan, Reza Nasiri Mahalati, Yi Jiang, Mohit Narang
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Patent number: 10720971Abstract: Devices and systems useful in concurrently receiving and transmitting Wi-Fi signals and Bluetooth signals in the same frequency band are provided. By way of example, an electronic device includes a transceiver configured to transmit data and to receive data over channels of a first wireless network and a second wireless network concurrently. The transceiver includes a plurality of filters configured to allow the transceiver to transmit the data and to receive the data in the same frequency band by reducing interference between signals of the first wireless network and the second wireless network.Type: GrantFiled: February 4, 2019Date of Patent: July 21, 2020Assignee: APPLE INC.Inventors: Hsin-Yuo Liu, Peter M. Agboh, Mohit Narang, Indranil S. Sen, Nicholas M. McDonnell, Chia Yiaw Chong
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Patent number: 10714983Abstract: A wireless power system may use a wireless power transmitting device to transmit wireless power to a wireless power receiving device. The wireless power transmitting device may have microwave antennas that extend along an axis in a staggered arrangement. In the staggered arrangement, the microwave antennas are positioned on alternating sides of the axis. Each microwave antenna is elongated along a dimension that is perpendicular to the axis. Multiple antennas may overlap a wireless power receiving antenna in the wireless power receiving device. Control circuitry may use oscillator and amplifier circuitry to provide antennas that have been overlapped by the wireless power receiving antenna with drive signals. The drive signals may be adjusted based on feedback from the wireless power receiving device to enhance power transmission efficiency. The system may have a wireless power transmitting device with inductive wireless power transmitting coils.Type: GrantFiled: February 22, 2018Date of Patent: July 14, 2020Assignee: Apple Inc.Inventors: Bing Jiang, Martin Schauer, Indranil S. Sen, Jouya Jadidian, Mark D. Neumann, Mohit Narang, Vaneet Pathak, Yi Jiang
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Publication number: 20200205031Abstract: Exemplary embodiments include a system having a first wireless audio output device configured to connect to a source device via a first piconet and a second wireless audio output device configured to connect to the first wireless audio output device via a second piconet. A schedule of the first piconet includes a plurality of slots associated with an audio packet, a first subset of the slots used by the source device to transmit the audio packet, the first and second wireless audio output devices tuning to the first piconet to listen for the transmissions of the audio packet, and when, after a last one of the first subset of slots, the first or second wireless audio output devices did not receive the audio packet, the first and second wireless audio output devices exchange information via the second piconet such that the both wireless audio output device receive the audio packet.Type: ApplicationFiled: March 5, 2020Publication date: June 25, 2020Inventors: Anatoli GOSTEV, Louay ALSAKKA, Axel BERNY, Tad DREIER, Joachim HAMMERSCHMIDT, Lei Li, Xiaojun CHEN, Vusthla Sunil REDDY, Peter M. AGBOH, Mohit NARANG
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Patent number: 10681773Abstract: Exemplary embodiments include a system having a first wireless audio output device and a second wireless audio output device. One of the first or second audio output devices is configured to one of connect as a slave to a source device in a first piconet and connect as a master to the other one of the first or second audio output devices in a second piconet. The one of the first or second wireless audio output devices determines whether an audio packet transmitted by the source device via the first piconet was received by the first wireless audio output device and the second wireless audio output device, and, when at least one of the first wireless audio output device or the second wireless audio output device did not receive the audio packet, the audio packet is exchanged between the first and second wireless audio output devices via the second piconet.Type: GrantFiled: January 3, 2019Date of Patent: June 9, 2020Assignee: Apple Inc.Inventors: Lei Li, Xiaojun Chen, Vusthla Sunil Reddy, Peter M. Agboh, Mohit Narang
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Patent number: 10651670Abstract: An electronic device may transfer power wirelessly to an external device. The electronic device may include a housing having a cavity. A cover layer may be formed over the cavity. An array of antennas may be formed within the cavity. Antennas in the array may transfer wireless charging signals to the external device through the cover layer to charge the external device while the external device is in contact with the cover layer. Impedance detection circuitry may gather impedance matching information from each antenna in the array. Control circuitry may select an antenna having a best impedance match with the external device for transmitting the wireless charging signals. One or more antennas in the array may form a block filter for the selected antenna. Multiple near-field coupled antennas in the array may be selected for transmitting the charging signals to focus the charging signals on the external device.Type: GrantFiled: April 19, 2017Date of Patent: May 12, 2020Assignee: Apple Inc.Inventors: Bing Jiang, Indranil S. Sen, Mohit Narang, Mun Soo Bae
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Publication number: 20200107274Abstract: Multi-radio wireless network devices are capable of transmitting and/or receiving data from multiple radiofrequency (RF) networks at different bands. Total transmission power limitations may be in place due to, for example, safety reasons. As a result, active management of transmission power may be performed during simultaneous transmission in different bands and/or networks. In some embodiments, the management may take place on group-by-group basis and a network-by-network basis. Antennas may be grouped based on their relative positions and impact on radiation emitted by the devices.Type: ApplicationFiled: April 11, 2019Publication date: April 2, 2020Inventors: Digvijay Arjunrao Jadhav, Indranil S. Sen, Jonathan C. King, Mohit Narang, Prathyusha Sangepu, Qiong Wu, Shrenik Milapchand, Vijay Gadde, Yu Chen
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Publication number: 20200100082Abstract: In a method of device-to-device communication, a user device initially sends an emergency message repeatedly at a first repeating frequency. When a specified number acknowledgement (ACK) messages are received, the user device sends the emergency message repeatedly at a reduced repeating frequency. The repeating frequency may be further reduced when more ACK messages are received.Type: ApplicationFiled: December 12, 2018Publication date: March 26, 2020Applicant: Apple Inc.Inventors: Sanjeevi Balasubramanian, Shiva Krishna Narra, Tarik Tabet, Dhruv Khati, Lydi Smaini, Anjaneyulu Maganti, Mohit Narang, Tiberiu Muresan
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Publication number: 20200100195Abstract: A power control method for device-to-device communication includes dynamically backing off transmit power value for synchronization signals and discovery messages when the distance between the two devices is less than a pre-determined threshold. The threshold distance may correspond to a distance where the receive power may exceed a pre-determined value. Embodiments may loop the transmit power of synchronization signals between a default transmit power value and backed-off values in consecutive slots of each frame.Type: ApplicationFiled: December 12, 2018Publication date: March 26, 2020Applicant: Apple Inc.Inventors: Dhruv Khati, Shiva Krishna Narra, Sanjeevi Balasubramanian, Anjaneyulu Maganti, Lydi Smaini, Tarik Tabet, Mohit Narang, Tiberiu Muresan
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Publication number: 20200100177Abstract: In a method of device-to-device communication, efficient power management is provided when a primary device has a low battery level. The primary device can send synchronization signals and discovery messages to secondary devices by looping through a sequence of transmit power values in a sequence of consecutive frames, where the sequence of transmitting values includes a default power value and a reduced power value.Type: ApplicationFiled: December 12, 2018Publication date: March 26, 2020Applicant: Apple Inc.Inventors: Sanjeevi Balasubramanian, Shiva Krishna Narra, Anjaneyulu Maganti, Tarik Tabet, Lydi Smaini, Dhruv Khati, Mohit Narang, Tiberiu Muresan
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Patent number: 10602397Abstract: Exemplary embodiments include a system having a first wireless audio output device configured to connect to a source device via a first piconet and a second wireless audio output device configured to connect to the first wireless audio output device via a second piconet. A schedule of the first piconet includes a plurality of slots associated with an audio packet, a first subset of the slots used by the source device to transmit the audio packet, the first and second wireless audio output devices tuning to the first piconet to listen for the transmissions of the audio packet, and when, after a last one of the first subset of slots, the first or second wireless audio output devices did not receive the audio packet, the first and second wireless audio output devices exchange information via the second piconet such that the both wireless audio output device receive the audio packet.Type: GrantFiled: September 19, 2017Date of Patent: March 24, 2020Assignee: Apple Inc.Inventors: Anatoli Gostev, Louay Alsakka, Axel Berny, Tad Dreier, Joachim Hammerschmidt, Lei Li, Xiaojun Chen, Vusthla Sunil Reddy, Peter M. Agboh, Mohit Narang
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Publication number: 20200092191Abstract: Methods for a data-less ranging procedure may include initiating a ranging procedure via a polling message transmitted at a first time and receiving response messages at second and third times. The time intervals between the first and second time and the second and third times may be pre-defined. A time of flight may be calculated based on the pre-defined time intervals and the first, second, and third times.Type: ApplicationFiled: September 18, 2018Publication date: March 19, 2020Inventors: Alejandro J. Marquez, Shang-Te Yang, Mohit Narang, Indranil S. Sen, Joachim S. Hammerschmidt, Hung Kwan Oscar Au, Dineshan Poopalaratnam
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Publication number: 20200091989Abstract: The present disclosure relates to opportunistically selecting an antenna in an electronic device having multiple antennas. A baseband processor of the electronic device may connect to a first cellular tower providing cellular service at a first frequency using a first antenna of the electronic device. The baseband processor may then receive an indication of a handover event to a second cellular tower operating at a second frequency. The baseband processor may determine signal measurements of the second cellular tower for each antenna of the electronic device that is capable of operating at the second frequency. The baseband processor may execute a handover to the second cellular tower using the antenna associated with the best performing signal measurements. In this manner, an antenna may be opportunistically selected based on performance of the antenna, improving operation of the electronic device and quality of cellular service.Type: ApplicationFiled: September 19, 2018Publication date: March 19, 2020Inventors: Vijendrakumar K. Ashiwal, Dikshit Garg, Vijay Gadde, Sharad Garg, Jia Tang, Zhu Ji, Mohit Narang, Tiberiu Muresan
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Patent number: 10588086Abstract: In a method of device-to-device communication, efficient power management is provided when a primary device has a low battery level. The primary device can send synchronization signals and discovery messages to secondary devices by looping through a sequence of transmit power values in a sequence of consecutive frames, where the sequence of transmitting values includes a default power value and a reduced power value.Type: GrantFiled: December 12, 2018Date of Patent: March 10, 2020Assignee: Apple Inc.Inventors: Sanjeevi Balasubramanian, Shiva Krishna Narra, Anjaneyulu Maganti, Tarik Tabet, Lydi Smaini, Dhruv Khati, Mohit Narang, Tiberiu Muresan
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Patent number: 10547290Abstract: Systems, methods, and devices are provided to efficiently share an antenna between multiple communication systems and allow for the communication systems to be simultaneously connected to the antenna with less attenuation and/or no fluctuation in signal strength. Communication circuitry may include an antenna that transmits and receives electromagnetic radiation. The communication circuitry may also include an antenna port that provides primary access to the antenna with a first attenuation via an antenna port input. Additionally, the communication circuitry may include a coupler attached to the antenna port. The coupler may provide secondary access to the antenna with a second attenuation.Type: GrantFiled: September 13, 2017Date of Patent: January 28, 2020Assignee: Apple Inc.Inventors: Chia Yiaw Chong, Mohit Narang, Peter M. Agboh, Hsin-Yuo Liu, Sultan R. Helmi, Tursunjan Yasin, Ye Chen
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Publication number: 20200015169Abstract: This disclosure relates to techniques and devices for implementing an emergency power save mode (EPSM) in a user equipment device (UE). A UE may enter the EPSM in response to user input. While operating in the EPSM, the UE may power down a display of the UE to preserve battery life and may broadcast an emergency beacon in response to user input to a hardware button of the UE, such as a volume button. The UE may supply sound or haptic feedback in response to broadcasting the emergency beacon.Type: ApplicationFiled: October 24, 2018Publication date: January 9, 2020Inventors: Anjaneyulu Maganti, Dhruv Khati, Lydi Smaini, Sanjeevi Balasubramanian, Shiva Krishna Narra, Tarik Tabet, Mohit Narang, Tiberiu Muresan
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Patent number: 10517111Abstract: Exemplary embodiments include a method performed by a wireless device configured as a slave in a first piconet and configured as a master in a second piconet. The method includes determining whether the wireless device has data to transmit over the second piconet to an other wireless device, determining an availability of a full slot in a first piconet schedule, selecting a data transmission scheme based on the availability of the full slot in the first piconet schedule and transmitting the data via the second piconet to the other wireless device in accordance with the selected data transmission scheme.Type: GrantFiled: September 19, 2017Date of Patent: December 24, 2019Assignee: Apple Inc.Inventors: Lei Li, Xiaojun Chen, Vusthla Sunil Reddy, Mohit Narang, Qiyang Wu, Peter M. Agboh
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Patent number: 10511084Abstract: Electronic devices may be provided that contain wireless communications circuitry. The wireless communications circuitry may include radio-frequency transceiver circuitry and first and second antennas. An electronic device may include a housing. The first antenna may be located at an upper end of the housing and the second antenna may be located at a lower end of the housing. A peripheral conductive member may run around the edges of the housing and may be used in forming the first and second antennas. The radio-frequency transceiver circuitry may have a transmit-receive port and a receive port. Switching circuitry may connect the first antenna to the transmit-receive port and the second antenna to the receiver port or may connect the first antenna to the receive port and the second antenna to the transmit-receive port.Type: GrantFiled: July 9, 2018Date of Patent: December 17, 2019Assignee: Apple Inc.Inventors: Ruben Caballero, Mattia Pascolini, Mohit Narang, Matt A. Mow, Robert W. Schlub
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Patent number: 10477741Abstract: An inductive power transmission system electromagnetic field shielding apparatus includes an enclosure. The enclosure is configured to surround an electronic device and an inductive power transmitter that inductively transmits power to the electronic device. A communication window or high pass filter is formed in the enclosure. The communication window may include an arrangement of one or more conductive materials defining one or more apertures. The enclosure and the communication window block passage of magnetic flux generated by the inductive power transmitter. The communication window allows passage of communication transmissions associated with the electronic device.Type: GrantFiled: February 9, 2016Date of Patent: November 12, 2019Assignee: APPLE INC.Inventors: Mun Soo Bae, Bing Jiang, Haejoon Jung, Indranil S. Sen, Mohit Narang, Ruben Caballero
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Publication number: 20190342707Abstract: Methods and devices useful in performing precise indoor localization and tracking are provided. By way of example, a method includes locating and tracking, via a first wireless electronic device, a plurality of other wireless electronic devices within an indoor environment. The method also includes performing front-back detection, performing stationary node detection, performing angle of arrival (AoA) error correction, and performing field of view (FOV) filtering. Performing indoor localization and tracking of the plurality of other wireless electronic devices includes providing an indication of a physical location of the plurality of other wireless electronic devices within the indoor environment.Type: ApplicationFiled: July 15, 2019Publication date: November 7, 2019Inventors: Amit S. Sant, Alejandro J. Marquez, Indranil S. Sen, Mohit Narang, Shang-Te Yang