Patents Examined by Tynese V McDaniel
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Patent number: 11788500Abstract: An enhanced conductivity battery device for use in a battery jump starting device. The enhanced conductivity device providing enhanced conductivity from the enhanced conductivity device to a battery being jump started.Type: GrantFiled: May 24, 2018Date of Patent: October 17, 2023Assignee: The Noco CompanyInventors: Jonathan Lewis Nook, William Knight Nook, Sr., James Richard Stanfield, Derek Michael Underhill
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Patent number: 11777329Abstract: A method controls a charging or discharging current of a removable battery pack and/or an electrical device, in particular a charging device, a diagnostic device or an electrical consumer, using a first monitoring unit integrated in the removable battery pack and a further monitoring unit integrated in the electrical device. The method includes monitoring a defined control potential of a signal or data contact between the removable battery pack and the electrical device using the further monitoring unit.Type: GrantFiled: July 19, 2021Date of Patent: October 3, 2023Assignee: Robert Bosch GmbHInventors: Alexander Osswald, Christoph Klee, Holger Wernerus, Juergen Mack, Marc-Alexandre Seibert, Mickael Segret, Tim Brecht
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Patent number: 11757291Abstract: A power supply device includes a plurality of battery modules, the battery modules are connected to one another in series according to a gate driving signal from a controller, the power supply device delays the gate driving signal in a gate driving signal processing circuit included in each of the battery modules, and thereafter, transmits the gate driving signal from an upstream to a downstream of the series connection, and the power supply device controls the battery modules by superimposing a control signal for the battery module on the gate driving signal.Type: GrantFiled: October 16, 2019Date of Patent: September 12, 2023Assignee: TOYOTA JIDOSHA KABUSHIKI KAISHAInventors: Shuji Tomura, Naoki Yanagizawa, Kazuo Ootsuka, Kyosuke Tanemura, Shigeaki Goto, Junta Izumi, Kenji Kimura
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Patent number: 11742689Abstract: An electronic device configured to operate in a plurality of power modes includes a power receiving circuit receiving wireless power from an power transmitting device; and a processor configured to control an operation of the electronic device, wherein the plurality of power modes include a power charging mode in which the wireless power is continuously provided, a power hold mode in which a state where the wireless power is provided and a state where the wireless power is cut off are periodically repeated in a ping period, and a power cutoff mode in which the wireless power is cut off, wherein the power receiving circuit generates a ping flag signal alternates between a high level and a low level with the ping period in the power hold mode, and changes the power mode based on a counting value obtained by counting particular level sections of the ping flag signal.Type: GrantFiled: February 10, 2021Date of Patent: August 29, 2023Assignee: SAMSUNG ELECTRONICS CO., LTD.Inventors: Hyunsu Kim, Hyoungseok Oh
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Patent number: 11742680Abstract: Embodiments are provided for dynamic management of charge. A method involves obtaining an estimated readiness time for an energy storage element, obtaining a target state of charge for the energy storage element, calculating an estimated charging time based at least in part on a difference between the target state of charge and a current state of charge, using a first charging rate to charge the energy storage element to an intermediate state of charge responsive to determining a time difference between the estimated readiness time and a first time is greater than the estimated charging time, maintaining the energy storage element at the intermediate state of charge, and responsive to determining a time difference between the estimated readiness time and a second time is less than the estimated charging time, using a second charging rate to charge the energy storage element to the target state of charge.Type: GrantFiled: August 19, 2020Date of Patent: August 29, 2023Assignee: Medtronic MiniMed, Inc.Inventors: Jalal Elidrissi, Adam S. Trock, Fatemeh Delijani, Seth N. Kazarians, Zhaleh Lotfi, Afshin Bazargan
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Patent number: 11721992Abstract: Systems and methods for supplying power from a multi-cell battery to a single-cell power management integrated circuit. One implementation of the system includes a voltage converter circuit, a control circuit, and a signal buffer circuit. The voltage converter circuit is configured to scale a positive battery terminal voltage signal received from the multi-cell battery to generate a scaled voltage signal. The control circuit is configured to select one of the scaled voltage signal or a cell voltage signal received from the multi-cell battery. The control circuit is also configured to output a high-impedance single-cell power signal including the selected one of the scaled voltage signal or the cell voltage signal. The signal buffer circuit is configured to buffer the high-impedance single-cell power signal to generate a low-impedance single-cell power signal for a voltage sense pin of the single-cell power management integrated circuit.Type: GrantFiled: July 23, 2020Date of Patent: August 8, 2023Assignee: MOTOROLA SOLUTIONS, INC.Inventors: Peter J. Bartels, Javier Alfaro, Kevin D. Elliott
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Patent number: 11707996Abstract: A charging status or a location of a wireless charger is provided. A vehicle may charge at a particular wireless charger based at least in part on the charging status of the wireless charger and/or the location of the wireless charger.Type: GrantFiled: December 15, 2017Date of Patent: July 25, 2023Assignee: WiBotic Inc.Inventor: Benjamin Waters
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Patent number: 11701976Abstract: An authentication between a wireless charger and a device configured to receive wireless energy from the wireless charger includes establishing a wireless data channel between the wireless charger and the device. An authentication challenge signal is driven onto a transmit charging coil of the wireless charger and a receive charging coil of the device is configured to receive the authentication challenge signal. The device sends an authentication response signal to the wireless charger based at least in part on the authentication challenge signal.Type: GrantFiled: December 15, 2017Date of Patent: July 18, 2023Assignee: WiBotic Inc.Inventor: Benjamin Waters
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Patent number: 11677260Abstract: In a portable device, a first battery has a positive terminal coupled to, through a first switch, an interface used to receive input power, and a negative terminal coupled to a reference terminal. A second battery has a positive terminal coupled to the interface, and a negative terminal coupled to the reference terminal through a second switch, and to the first battery's positive terminal through a third switch. A control circuitry controls the switches such that the device has multiple operation modes including at least a one-battery charging mode and a two-battery-in-series charging mode. In the one-battery charging mode, the circuitry turns off the third switch, and controls the other switches such that one battery is charged by the input power. In the two-battery-in-series charging mode, the control circuitry turns on the third switch and turns off the other switches, such that two batteries are charged by the input power.Type: GrantFiled: October 9, 2019Date of Patent: June 13, 2023Assignee: O2Micro Inc.Inventor: Guoxing Li
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Patent number: 11664683Abstract: Apparatuses and systems are provided for improving wireless power transmission for mobile devices. An enclosure for a mobile device may include a first electrical coil configured to establish a first wireless coupling with a transmitter coil of a power supply and a second electrical coil configured to establish a second wireless coupling with the first electrical coil and to establish a third wireless coupling with a receiver coil of a mobile device. A distance between the receiver coil and the transmitter coil may exceed a range over which the transmitter coil may be able to transfer power to the receiver coil via a single wireless coupling between the transmitter coil and the receiver coil. The first wireless coupling, the second wireless coupling, and the third wireless coupling, when established, may enable the transmitter coil to perform a wireless power transfer to the receiver coil.Type: GrantFiled: January 7, 2022Date of Patent: May 30, 2023Inventor: Geoffrey Herbert Harris
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Patent number: 11658507Abstract: A battery charging method and an electronic device are disclosed. The electronic device can comprise: a connection unit comprising a first terminal to which a voltage is applied by an external device, and a second terminal for transmitting/receiving data; a first charging unit for charging a battery connected to the electronic device by using the voltage applied to the first terminal; and a second charging unit for charging the battery by dropping the voltage applied to the first terminal according to a preset voltage drop rate.Type: GrantFiled: September 27, 2017Date of Patent: May 23, 2023Assignee: Samsung Electronics Co., Ltd.Inventors: Sung-Geun Yoon, Kang-Jun Ko, Chul-Woo Park, Ku-Chul Jung, Seung-Chul Choi
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Patent number: 11637437Abstract: A charging station for providing power to a physiological monitoring device can include a charging bay and a tray. The charging bay can include a charging port configured to receive power from a power source. The tray can be positioned within and movably mounted relative to the charging bay. The tray can be further configured to secure the physiological monitoring device and move between a first position and a second position. In the first position, the tray can be spaced away from the charging port, and, in the second position, the tray can be positioned proximate the charging port, thereby allowing the physiological monitoring device to electrically connect to the charging port.Type: GrantFiled: April 16, 2020Date of Patent: April 25, 2023Assignee: Masimo CorporationInventors: Ammar Al-Ali, Sujin Hwang
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Patent number: 11601004Abstract: A battery assembly device for a battery jump starting device. The battery assembly is configured to maximize electrical conductivity from a battery pack of the battery jump starting device to a battery to be recharged.Type: GrantFiled: March 29, 2016Date of Patent: March 7, 2023Assignee: The NOCO CompanyInventors: Jonathan Lewis Nook, William Knight Nook, Sr., James Richard Stanfield, Derek Michael Underhill
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Patent number: 11539230Abstract: The present disclosure provides a charging system and method and a power adapter. The system includes: a battery; a first rectification unit, configured to output a voltage with a first pulsating waveform; a switch unit, configured to modulate the voltage with the first pulsating waveform; a transformer, configured to output a voltage with a second pulsating waveform according to the modulated voltage; a second rectification unit, configured to rectify the voltage with the second pulsating waveform to output a voltage with a third pulsating waveform; and a control unit, configured to output the control signal to the switch unit to decrease a length of a valley of the voltage with the third pulsating waveform such that a peak value of a voltage of the battery is sampled.Type: GrantFiled: November 8, 2017Date of Patent: December 27, 2022Assignee: GUANGDONG OPPO MOBILE TELECOMMUNICATIONS CORP., LTD.Inventors: Chen Tian, Jialiang Zhang
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Patent number: 11522388Abstract: A wireless charging system for charging a chargeable electrical energy source of a heating device for aerosol-gene rating articles comprises: —a charging device (3) comprising a planar flat transmitter coil (30), configured to supply an alternating current (I) to the planar flat transmitter coil (30); —a wirelessly chargeable electrical energy source (4) of a heating device (2) for aerosol-generating articles, comprising an electrical energy storage (41) and a tubular receiver coil (40) connected to the electrical energy storage (41), wherein the tubular receiver coil (40) has a longitudinal axis (42) and is adapted to be arranged in a charging position relative to the planar flat transmitter coil (30), wherein in the charging position the longitudinal axis (42) of the tubular receiver coil (40) extends in a plane parallel to the planar flat transmitter coil (30) and in radial direction relative to the planar flat transmitter coil (30), and wherein the tubular receiver coil (40) is arranged to overlap at leasType: GrantFiled: August 30, 2017Date of Patent: December 6, 2022Assignee: Philip Morris Products S.A.Inventors: Bastian Dani, Laurent Golay, Michel Bessant, Samer Abdo
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Patent number: 11509159Abstract: A device for controlling battery operation includes a battery cell, a thermal cutoff, and a battery management system. The thermal cutoff is coupled in series between the battery cell and a system load of the device. The thermal cutoff has at least three terminals. A first terminal of the thermal cutoff is electrically-coupled to the battery cell and a second terminal of the thermal cutoff is electrically-coupled to the system load. The thermal cutoff includes a permanent failure mechanism having an open state and closed state wherein the closed state allows electrical communication between the first terminal and the second terminal. The battery management system is electrically-coupled to a third terminal of the thermal cutoff. The permanent failure mechanism permanently switches to the open state in response to an electrical signal from the battery management system.Type: GrantFiled: August 28, 2019Date of Patent: November 22, 2022Assignee: Microsoft Technology Licensing, LLCInventors: Sachin Ramesh Chandra, Jason Michael Battle, Benjamin Edward Newton
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Patent number: 11502528Abstract: A portable power bank and remote server are described, where a rechargeable device includes a rechargeable battery that receives electric charge from the power bank via an electrical connection. Systems and methods facilitate determination of a “number of potential rechargings” of the rechargeable device battery via the power bank, e.g., how many times the power bank can charge the rechargeable device battery to a desired fuel gauge (e.g., 100%) before the power bank is depleted. The number of potential rechargings is determined by the remote server based upon the desired fuel gauge of the rechargeable device, present fuel gauges of the rechargeable device and the power bank, and charging efficiency factors corresponding to the rechargeable device and the power bank, respectively.Type: GrantFiled: March 11, 2021Date of Patent: November 15, 2022Assignee: DURACELL U.S. OPERATIONS, INC.Inventors: Jordan Todorov Bourilkov, Sergio Coronado Hortal, Francisco Jose Restrepo, John Rotondo
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Patent number: 11489357Abstract: A battery charging circuit providing a charging current to a battery via a charging transistor. A control circuit used to control the battery charging circuit has a system voltage control loop providing a system voltage compensation signal, a charging current control loop providing a charging current compensation signal and a charging transistor control loop providing a charging regulation signal based on a charging transistor reference signal and the system voltage feedback signal.Type: GrantFiled: December 6, 2019Date of Patent: November 1, 2022Assignee: Chengdu Monolithic Power Systems Co., Ltd.Inventor: Junchang Chang
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Patent number: 11469610Abstract: A charging system including an accumulator, a use of an MPP tracking method for charging an accumulator, and a method for charging an accumulator with the aid of a charging system, the charging system including a voltage source, a converter, and a rectifier, the current supplied and/or driven by the voltage source being supplied to the DC-voltage-side terminal of a converter, the converter having semiconductor switches, which are controllable in a pulse-width modulated manner, in order to generate an output-side AC voltage, the output-side AC voltage feeding a rectifier, whose output-side voltage, especially rectified voltage, functioning and/or acting as charging voltage for the accumulator, an arrangement for detecting the output current of the inverter being situated in the converter, the effective value of the output current in particular corresponding to the charge current of the converter, a current limiting arrangement of the converter limiting the output current of the inverter to a current value suchType: GrantFiled: May 5, 2014Date of Patent: October 11, 2022Assignee: SEW-EURODRIVE GMBH & CO. KGInventor: Harald Budzen
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Patent number: 11462929Abstract: Electrochemical models for the lithium-ion battery are useful in predicting and controlling its performance. The values of the parameters in these models are vital to their accuracy. However, not all parameters can be measured precisely, especially when destructive methods are prohibited. In some embodiments of the present disclosure, a parameter estimation approach is used to estimate the open circuit potential of the positive electrode (Up) using piecewise linear approximation together with all the other parameters of a single particle model. Up and 10 more parameters may be estimated from a single discharge curve without knowledge of the electrode chemistry using a technique such as a genetic algorithm. Different case studies were presented for estimating Up with different types of parameters of the battery model. The estimated parameters were then validated by comparing simulations at different discharge rates with experimental data.Type: GrantFiled: October 4, 2017Date of Patent: October 4, 2022Assignee: UNIVERSITY OF WASHINGTONInventors: Yanbo Qi, Suryanarayana Kolluri, Venkat Subramanian, Sung-Yuan Chen, Neal Dawson-Elli