Patents by Inventor Manjit S. Walia
Manjit S. Walia 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: 11196298Abstract: A wireless power system has a wireless power transmitting device and a wireless power receiving device. The wireless power transmitting device may include an inverter configured to drive a resonant circuit and may further include a sinusoidal pulse-width modulation (PWM) signal generator configured to generate a corresponding sinusoidal PWM control signal. The inverter may have an input that receives the sinusoidal PWM control signal. The sinusoidal PWM control signal may exhibit a plurality of different pulse widths summing to the target duty cycle of the sinusoidal PWM control signal. Operated in this way, the wireless power transmitting device exhibits reduced harmonic distortions, which mitigates undesired radiated spurious emissions.Type: GrantFiled: June 11, 2018Date of Patent: December 7, 2021Assignee: Apple Inc.Inventors: Soumya Mantha, Manjit S. Walia, Rahul A. Sabnani
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Patent number: 11184810Abstract: Methods and apparatuses are presented to locate a wireless communication device. A target device may be out of range of a source device for normal ranging communications according to a first radio access technology (RAT), such as ultra wideband (UWB) communications. A source device may therefore modify communications according to the first RAT, to increase the transmit power, while removing the data payload. The target device may utilize the signal strength and angle of arrival of the modified communications to guide the user to move toward the source device, e.g., until the target device is within range to perform normal ranging communications. A second RAT, such as Bluetooth, may be used to communicate between the two devices while the target device is out of range of the first RAT. For example, the target device may use the second RAT to communicate to the source device to start/stop transmitting modified communications.Type: GrantFiled: August 14, 2019Date of Patent: November 23, 2021Assignee: Apple Inc.Inventors: Vusthla Sunil Reddy, Alejandro J. Marquez, Indranil S. Sen, Manjit S. Walia, Peter M. Agboh, Shang-Te Yang, Xiaoming Yu
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Patent number: 11159266Abstract: A device in an adaptive channel access system may include a processor that is configured initiate access of a channel, and perform a first jammer detection on the channel. The processor is configured to, when a jamming device is detected on the channel, access the channel with a channel occupancy time set to a first duration of time. The processor is configured to, when no jamming devices are detected: access the channel with the channel occupancy time set to the second duration of time that is greater than the first duration, while accessing the channel with the channel occupancy time set to the second duration of time, perform a second jammer detection on the channel, and when the jamming device is detected, cease to access the channel prior to the expiration of the second duration of time, otherwise continue to access the channel without re-initiating access of the channel.Type: GrantFiled: August 21, 2018Date of Patent: October 26, 2021Assignee: Apple Inc.Inventors: Xi Yang, Peter M. Agboh, Qiyang Wu, Vusthla Sunil Reddy, Shrenik Milapchand, Manjit S. Walia
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Patent number: 10958306Abstract: Some embodiments include a system, method, and computer program product for managing the Ultra Wideband (UWB) systems, especially when the UWB system is collocated with another wireless system (e.g., WiFi) to transmit and/or receive UWB signals with an occupied bandwidth (OBW) that satisfies a UWB OBW standard (e.g., a UWB OBW>=500 MHz.) In some embodiments a TailBit signal (e.g., a periodic signal at a selected frequency) is added to a UWB packet to generate frequency components at the selected frequency that enables the power spectrum of the TailBit UWB signal to satisfy the UWB OBW standard. In some embodiments an altered code sequence is used to generate an altered spread signal, where the altered code sequence reduces or removes a frequency component peak near DC frequency of the power spectrum of an altered UWB signal, resulting in altered UWB OBW that satisfies the UWB OBW standard.Type: GrantFiled: March 13, 2020Date of Patent: March 23, 2021Assignee: Apple Inc.Inventors: Xiaoming Yu, Alejandro J. Marquez, Lei Li, Peter M. Agboh, Shang-Te Yang, Vusthla Sunil Reddy, Pradeep K. Marri, Manjit S. Walia, Ali Pourghorban Saghati
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Publication number: 20210051532Abstract: Methods and apparatuses are presented to locate a wireless communication device. A target device may be out of range of a source device for normal ranging communications according to a first radio access technology (RAT), such as ultra wideband (UWB) communications. A source device may therefore modify communications according to the first RAT, to increase the transmit power, while removing the data payload. The target device may utilize the signal strength and angle of arrival of the modified communications to guide the user to move toward the source device, e.g., until the target device is within range to perform normal ranging communications. A second RAT, such as Bluetooth, may be used to communicate between the two devices while the target device is out of range of the first RAT. For example, the target device may use the second RAT to communicate to the source device to start/stop transmitting modified communications.Type: ApplicationFiled: August 14, 2019Publication date: February 18, 2021Inventors: Vusthla Sunil Reddy, Alejandro J. Marquez, Indranil S. Sen, Manjit S. Walia, Peter M. Agboh, Shang-Te Yang, Xiaoming Yu
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Patent number: 10886781Abstract: A wireless power transmitting device includes a plurality of coils and respective wireless power transmitting circuitry coupled to each coil. The wireless power transmitting circuitry coupled to each coil may include an inverter and adjustable circuitry that is configured to mitigated radiated emissions in nominally passive coils in the power transmitting device. The wireless power transmitting circuitry coupled to each coil in the wireless power transmitting device may include adjustable circuitry coupled to an inverter output terminal in parallel or in series with the coil. The adjustable circuitry may have a variable capacitance that is controlled based on whether the coil is in an active or passive mode. The capacitance of the adjustable circuitry may be varied in a repeating cycle when the coil is in a passive mode. The adjustable circuitry may include one or more capacitors coupled between the inverter output terminal and ground.Type: GrantFiled: June 4, 2018Date of Patent: January 5, 2021Assignee: Apple Inc.Inventors: Soumya Mantha, Manjit S. Walia, Rahul A. Sabnani, Yiling Xu
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Publication number: 20200382159Abstract: Some embodiments include a system, method, and computer program product for managing the Ultra Wideband (UWB) systems, especially when the UWB system is collocated with another wireless system (e.g., WiFi) to transmit and/or receive UWB signals with an occupied bandwidth (OBW) that satisfies a UWB OBW standard (e.g., a UWB OBW>=500 MHz.) In some embodiments a TailBit signal (e.g., a periodic signal at a selected frequency) is added to a UWB packet to generate frequency components at the selected frequency that enables the power spectrum of the TailBit UWB signal to satisfy the UWB OBW standard. In some embodiments an altered code sequence is used to generate an altered spread signal, where the altered code sequence reduces or removes a frequency component peak near DC frequency of the power spectrum of an altered UWB signal, resulting in altered UWB OBW that satisfies the UWB OBW standard.Type: ApplicationFiled: March 13, 2020Publication date: December 3, 2020Applicant: Apple Inc.Inventors: Xiaoming YU, Alejandro J. MARQUEZ, Lei LI, Peter M. AGBOH, Shang-Te YANG, Vusthla Sunil REDDY, Pradeep K. MARRI, Manjit S. WALIA, Ali Pourghorban SAGHATI
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Publication number: 20200112385Abstract: A device in an adaptive channel access system may include a processor that is configured initiate access of a channel, and perform a first jammer detection on the channel. The processor is configured to, when a jamming device is detected on the channel, access the channel with a channel occupancy time set to a first duration of time. The processor is configured to, when no jamming devices are detected: access the channel with the channel occupancy time set to the second duration of time that is greater than the first duration, while accessing the channel with the channel occupancy time set to the second duration of time, perform a second jammer detection on the channel, and when the jamming device is detected, cease to access the channel prior to the expiration of the second duration of time, otherwise continue to access the channel without re-initiating access of the channel.Type: ApplicationFiled: August 21, 2018Publication date: April 9, 2020Inventors: Xi YANG, Peter M. AGBOH, Qiyang WU, Vusthla Sunil REDDY, Shrenik MILAPCHAND, Manjit S. WALIA
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Publication number: 20190305595Abstract: A wireless power transmitting device includes a plurality of coils and respective wireless power transmitting circuitry coupled to each coil. The wireless power transmitting circuitry coupled to each coil may include an inverter and adjustable circuitry that is configured to mitigated radiated emissions in nominally passive coils in the power transmitting device. The wireless power transmitting circuitry coupled to each coil in the wireless power transmitting device may include adjustable circuitry coupled to an inverter output terminal in parallel or in series with the coil. The adjustable circuitry may have a variable capacitance that is controlled based on whether the coil is in an active or passive mode. The capacitance of the adjustable circuitry may be varied in a repeating cycle when the coil is in a passive mode. The adjustable circuitry may include one or more capacitors coupled between the inverter output terminal and ground.Type: ApplicationFiled: June 4, 2018Publication date: October 3, 2019Inventors: Soumya Mantha, Manjit S. Walia, Rahul A. Sabnani, Yiling Xu
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Publication number: 20190305596Abstract: A wireless power system has a wireless power transmitting device and a wireless power receiving device. The wireless power transmitting device may include an inverter configured to drive a resonant circuit and may further include a sinusoidal pulse-width modulation (PWM) signal generator configured to generate a corresponding sinusoidal PWM control signal. The inverter may have an input that receives the sinusoidal PWM control signal. The sinusoidal PWM control signal may exhibit a plurality of different pulse widths summing to the target duty cycle of the sinusoidal PWM control signal. Operated in this way, the wireless power transmitting device exhibits reduced harmonic distortions, which mitigates undesired radiated spurious emissions.Type: ApplicationFiled: June 11, 2018Publication date: October 3, 2019Inventors: Soumya Mantha, Manjit S. Walia, Rahul A. Sabnani
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Patent number: 10390313Abstract: In order to improve communication with another electronic device, during an advertising mode an electronic device (such as a smartphone) may transmit a packet with advertising information using a default transmit power level. Then, based on feedback about a performance metric associated with the communication from the other electronic device, the electronic device may selectively increase the transmit power level for a subsequent packet. Because this selective increase in the transmit power level may increase the overall power consumption, the change in the transmit power level also may depend on one or more factors, such as a battery power level of the electronic device. However, the selective increase in the transmit power level may, in some instances, decrease the overall power consumption by reducing or eliminating retries.Type: GrantFiled: February 3, 2016Date of Patent: August 20, 2019Assignee: Apple Inc.Inventors: Mohit Narang, Peter Agboh, Vusthla Sunil Reddy, Chia Yiaw Chong, Indranil S. Sen, Ruben Caballero, Manjit S. Walia, Xi Yang
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Patent number: 9560601Abstract: Systems and method for improving design and/or operation of a radio frequency system are provided. One embodiment provides a radio frequency system, which includes a first look-up table that describes a static reference value, association between a maximum output power and a first specification level, and association between a first back off value and a second specification level, in which the first back off value is defined in relation to the static reference value and used to determine a first reduced output power; and a second look-up table that describes association between the maximum output power and a first set of operational parameters and association between the first reduced output power and a second set of operational parameters.Type: GrantFiled: March 6, 2015Date of Patent: January 31, 2017Assignee: Apple Inc.Inventors: Jianjian Li, Vikas O. Jain, Peter M. Agboh, Kaushal K. Mangtani, Manjit S. Walia, Mohit Narang, Abhishek Mehta, Ruben Caballero
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Publication number: 20160360496Abstract: Methods and devices for reducing the power consumption and increasing the efficiency of an LTE transmitter of an electronic device are provided. By way of example, a method includes calculating location data related to a region in which the electronic device may operate via the electronic device, determining via the electronic device a region in which the electronic device is currently operating within based on the location data, and adjusting an output transmitting power of the electronic device based at least in part on the region and one or more frequency operating parameters utilized by the electronic device.Type: ApplicationFiled: June 5, 2015Publication date: December 8, 2016Inventors: Abhishek A. Mehta, Jianjian Li, Kaushal K. Mangtani, Manjit S. Walia, Mohit Narang, Peter M. Agboh, Rahul A. Sabnani, Shrenik Milapchand, Vikas O. Jain
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Publication number: 20160262110Abstract: Systems and method for improving design and/or operation of a radio frequency system are provided. One embodiment provides a radio frequency system, which includes a first look-up table that describes a static reference value, association between a maximum output power and a first specification level, and association between a first back off value and a second specification level, in which the first back off value is defined in relation to the static reference value and used to determine a first reduced output power; and a second look-up table that describes association between the maximum output power and a first set of operational parameters and association between the first reduced output power and a second set of operational parameters.Type: ApplicationFiled: March 6, 2015Publication date: September 8, 2016Inventors: Jianjian Li, Vikas O. Jain, Peter M. Agboh, Kaushal K. Mangtani, Manjit S. Walia, Mohit Narang, Abhishek Mehta, Ruben Caballero
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Publication number: 20160165552Abstract: In order to improve communication with another electronic device, during an advertising mode an electronic device (such as a smartphone) may transmit a packet with advertising information using a default transmit power level. Then, based on feedback about a performance metric associated with the communication from the other electronic device, the electronic device may selectively increase the transmit power level for a subsequent packet. Because this selective increase in the transmit power level may increase the overall power consumption, the change in the transmit power level also may depend on one or more factors, such as a battery power level of the electronic device. However, the selective increase in the transmit power level may, in some instances, decrease the overall power consumption by reducing or eliminating retries.Type: ApplicationFiled: February 3, 2016Publication date: June 9, 2016Inventors: Mohit NARANG, Peter AGBOH, Vusthla Sunil REDDY, Chia Yiaw CHONG, Indranil S. SEN, Ruben CABALLERO, Manjit S. WALIA, Xi YANG
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Publication number: 20160066267Abstract: In order to improve communication with another electronic device, during an advertising mode an electronic device (such as a smartphone) may transmit a packet with advertising information using a default transmit power level. Then, based on feedback about a performance metric associated with the communication from the other electronic device, the electronic device may selectively increase the transmit power level for a subsequent packet. Because this selective increase in the transmit power level may increase the overall power consumption, the change in the transmit power level may depend on a battery power level of the electronic device. However, the selective increase in the transmit power level may decrease the overall power consumption by reducing or eliminating retries.Type: ApplicationFiled: September 2, 2014Publication date: March 3, 2016Inventors: Mohit Narang, Peter M. Agboh, Vusthla Sunil Reddy, Chia Yiaw Chong, Indranil S. Sen, Ruben Caballero, Manjit S. Walia, Xi Yang