06th week of 2022 patent applcation highlights part 63 |
Patent application number | Title | Published |
20220045517 | WIND FARM COMPRISING A STABILIZATION DEVICE AND A STABILIZATION DEVICE - A wind farm, having a nominal power, for feeding electrical power into a supply network, comprising: wind power installations, a wind farm network and a stabilization unit connected to the wind farm network and arranged between the installations and the supply network. The stabilization unit increases a stability of the wind farm and comprises: an energy storage device which is set up to provide an electrical power, an intermediate circuit which is connected to the storage device and which is set up to conduct at least the electrical power provided by the storage device, an inverter connected to the intermediate circuit and set up to form at least the electrical power provided by the storage device, and a control unit set up to control at least the inverter such that the stabilization unit at the wind farm appears, statically as well as dynamically, like an electromechanical synchronous machine. | 2022-02-10 |
20220045518 | Hybrid Power Generation System Combines Renewable Energy With Direct-Air-Capture (DAC) - A method, system and computer-readable medium where an integrator application identifies an excess energy condition based on a supply load of electricity exceeding a consumptive load. The integrator application directs an air scrubber to utilize the excess electricity to remove carbon dioxide from the ambient air and routes the carbon dioxide to an enhanced coal bed methane well where methane is displaced by the carbon dioxide. In response to identifying an energy deficient condition based on the consumptive load exceeding the supply load, the integrator application routes the methane to a gas power plant and directs the gas power plant to convent the methane to electricity. | 2022-02-10 |
20220045519 | POWER CONVERSION SYSTEM - A power conversion system includes: a power converter connected between a DC power source and an AC power source; an AC switch connected between the power converter and the AC power source; an AC capacitor connected on the power converter side relative to the AC switch, on an output side of the power converter; and a control device configured to, in a state in which the AC switch is open, recognize a voltage of the AC capacitor and control the power converter to bring an output voltage of the power converter close to a voltage of the AC power source from the voltage of the AC capacitor gradually or in a step-by-step manner, and then close the AC switch. The power conversion system can suppress overcurrent at a time of start-up of a power converter and inrush current at a time of interconnection to an AC power source. | 2022-02-10 |
20220045520 | IC Chip and Circuit System Using the Same - A circuit system including a first IC chip arranged in a first voltage region on a circuit board, and a second IC chip arranged in a second voltage region on the circuit board, each of the first IC chip and the second IC chip including a data communication unit to wirelessly transmit/receive data and a power transmission/reception unit to wirelessly transmit/receive power. The first IC chip and the second IC chip wirelessly transfer data and power to each other in an insulated state between the first voltage region and the second voltage region. | 2022-02-10 |
20220045521 | METHOD AND APPARATUS FOR ACTIVE CURRENT BALANCING IN MULTIPLE PARALLEL BATTERY CELLS - Methods and apparatuses are disclosed for controlling charging power supplied to one or more parallel-connected rechargeable batteries. In the charging path of each battery, a current sensor and a current controller are disposed. The current sensor detects an amount of current being provided to the battery during charging, and provides this information to a system controller. The system controller receives the sensed current, and compares the current to an acceptable charge current range associated with the battery. If the charging current is determined to be within the acceptable range, then no changes are made to the current controller. If, on the other hand, the charging current is determined to be outside the acceptable range, then the system controller controls the current controller to adjust the amount of current provided to the battery. | 2022-02-10 |
20220045522 | Balanced Charging Device and Charging System - A balanced charging device and a charging system used to solve the technical problem of too long charging time of the balanced charging device. The balanced charging device comprises a plurality of charging modules, each of which independently charges a battery unit and is provided with a positive port and a negative port with independent functions; the positive port is connected with the positive port of the battery unit corresponding to the charging module, and the negative port is connected with the negative port of the battery unit corresponding to the charging module. The charging system includes the balanced charging device. The balanced charging device and charging system provided by the disclosure are used for charging a plurality of battery units in series. | 2022-02-10 |
20220045523 | ELECTRICAL ENERGY STORAGE DEVICE - An electrical energy storage device is constituted by connecting together a plurality of battery cells. Each of the battery cells includes a transformer forming unit constituted by a first inductor, a second inductor, a first core member, and a second core member, and which is capable of forming a transformer between itself and an adjacent battery cell, and a potential detection unit that detects the potential of the battery cell. A control unit compares the potentials of the adjacent battery cells based on measurement results of a potential detection unit. Furthermore, the control unit performs an equalization control to equalize the potentials of the plurality of battery cells, by supplying electrical charge from the battery cell having a higher potential to the battery cell having a lower potential. | 2022-02-10 |
20220045524 | CHARGING CONTROL DEVICE, BATTERY SYSTEM, AND CHARGING CONTROL METHOD - A charging control device charges a battery device, and a control unit that is configured to control a switch and to control charging of the battery device. The control unit estimates a total voltage when each battery is not bypassed in each of the plurality of storage battery systems, selects the storage battery system having a low voltage among the estimated total voltages, and then repeatedly executes selective charging of charging the selected storage battery system so that an estimated total voltage difference between the storage battery system having the low voltage in the estimated. total voltage and the storage battery system having a. high voltage in the estimated total voltage is less than a predetermined value. | 2022-02-10 |
20220045525 | METHOD FOR OPERATING A BATTERY SYSTEM - A method for operating a battery system. The battery system includes parallel-connected strings. Each string includes at least one battery module. In the battery module, multiple battery cells are interconnected in a series connection and/or in a parallel connection. The strings are switchable on and off from one another. The battery cells and/or battery cell packets are switchable on and off from one another and are bypass-able. The method includes: recognizing a fault of a battery cell; switching off and bypassing the faulty battery cell and/or the faulty battery cell packet which includes the faulty battery cell; switching off the faulty string, which includes the faulty battery cell and/or the faulty battery cell packet; comparing the string voltage of the faulty string to the string voltage of intact strings, in which no fault was recognized; discharging the intact strings if voltage differences between the strings exceed a voltage threshold value. | 2022-02-10 |
20220045526 | ARCHITECTURE FOR MULTIPLE PARALLEL SECONDARY PROTECTORS FOR BATTERY CELLS - A circuit is disclosed to provide synchronization between parallel-connected battery cells. The circuit includes at least a plurality of battery cells connected in parallel to an output voltage rail of the battery pack. The circuit may further include a first indicator resistor having a first terminal and a second terminal, where the first terminal is connected to the output voltage rail. The circuit may further include a plurality of charge protection circuits corresponding to the plurality of battery cells and include at least a first charge protection circuit configured to detect that a first battery cell corresponding to the first charge protection circuit has triggered one or more undesirable charge protection states to enter a charge protection mode and shut off a first charge transistor for the first battery cell to prevent charging of the first battery cell in response to the first battery cell entering the charge protection mode. The circuit can further pull down a voltage of the first indicator resistor at the second terminal in response to the first battery cell entering the charge protection mode, where the voltage pull down provides an indication to a second charge protection circuit of the plurality of charge protection circuits that the first battery cell has entered the charge protection mode. | 2022-02-10 |
20220045527 | MAGNETICALLY ATTACHABLE CHARGING DEVICES - Attachment devices that can secure a phone or other electronic device in place in a vehicle or other structure. One example can provide an attachment device that can include a stalk portion to attach to a surface or structure in a vehicle, such as a vent cover, dashboard, monitor, cup holder or other surface or structure. The attachment device can further include an attachment feature to provide for an attachment to the electronic device. Further examples can provide power for a phone or other electronic device. | 2022-02-10 |
20220045528 | DOCKING STATION WITH DETACHABLE BACK SUPPORT - A docking station for a handheld electronic device contains a main body, and one or more feet extending downwards from the main body and enabling the main body to be placed on the ground. Furthermore, the docking station contains a detachable back support extending upwards from the main body and enabling an electronic device to be placed into the docking station. | 2022-02-10 |
20220045529 | STORAGE AND CHARGING STATION SYSTEM FOR MOBILE ELECTRONIC DEVICES HAVING A UNITARY SUPPORT TOWER CAGE STRUCTURE - A storage and charging station system for mobile electronic devices includes a support tower cage structure having vertically extending rear and side panels. A plurality of planar support shelves engage horizontal slots on the panel front sides and at least one associated rear channel shelf support surface on the rear panel to support a vertical array of mobile electronic devices. The shelves may include side support shelves extending outward through supporting panel slots in a side wall for supporting additional electrical components. Openings are provided in the cage structure panels for observation of mobile electronic devices, for ventilation, and for facilitating transmission of electrical data to and from the mobile devices. Cable management apertures and slots are provided in at least one panel and shelf portions. A lockable door may be attached to secure the contents of the cage structure. A lockable side cover may also be provided. | 2022-02-10 |
20220045530 | INTEGRATED MANAGEMENT OF ELECTRIC VEHICLE CHARGING AND NON-ELECTRIC VEHICLE FUELING - A fueling system can include an electric vehicle (EV) charging station and a non-charging fueling station for fueling vehicles other than EVs. The EV charging station includes a first control unit, a switching unit, and output connections that can be connected to EVs. The non-charging fueling station includes a second control unit and, for example, a liquid fuel pump. An integrated fuel management system is in communication with the EV charging station and the non-charging fueling station. The switching unit can direct a charging current from an input power supply to an output connection in response to commands from the first control unit that are issued according to a charging procedure. The first control unit can send state information for the EV charging station to the integrated fuel management system. The second control unit can send state information for the non-charging fueling station to the integrated fuel management system. | 2022-02-10 |
20220045531 | MOTOR VEHICLE - A motor vehicle includes a chassis supported on wheels, a battery having a voltage and supported by the chassis, a first electrical circuit supported on the chassis and configured to receive current from the battery, and a second electrical circuit supported on the chassis and configured to receive current from the battery. The second electrical circuit includes a current disconnect that is switchable between an open condition, in which the second electrical circuit is disconnected from the battery when the voltage falls below a voltage threshold, and a closed condition, in which the second electrical circuit is connected to the first electrical circuit when a reset condition occurs. | 2022-02-10 |
20220045532 | SEMICONDUCTOR DEVICE AND CHARGE CONTROL SYSTEM - A structure that includes a circuit for controlling the safe operation of a secondary battery but can overcome space limitations owing to miniaturization of the housing is provided. A charge control circuit is provided over a flexible substrate and bonded to an external surface of the secondary battery. The charge control circuit is electrically connected to at least one of two terminals of the secondary battery and controls charging. To prevent overcharge, both an output transistor of a charging circuit and a blocking switch are brought into off state substantially concurrently. Blocking two paths which connect to the battery can quickly stop charging when overcharge is detected and reduce damage to the battery owing to the overcharge. | 2022-02-10 |
20220045533 | CHARGE/DISCHARGE CONTROL CIRCUIT AND BATTERY DEVICE PROVIDED WITH SAME - Provided is a charge/discharge control circuit controllable by a control signal from a controller that is external. The charge/discharge control circuit includes a control circuit configured to, in response to a power-down control signal for transitioning to a power-down state being input from the controller, latch the power-down control signal and block a discharge path from a secondary cell (SC) to the controller. | 2022-02-10 |
20220045534 | METHOD AND APPARATUS FOR BATTERY CHARGING BASED ON USAGE HISTORY - Methods and apparatuses are disclosed for adjusting a maximum charge amount of a battery. Batteries have preferred usage parameters, such as charging rates, maximum charge amounts, heat, etc. Throughout a battery's lifespan, it is used in different ways that are outside of these parameters. This slowly degrades the quality of the battery. According to the present disclosure, this usage is monitored and accounted for so as to increase the lifespan of the battery and prevent or reduce further degradation. Specifically, the usage is separated into bins, such as temperature and voltage bins. Each bin is associated with a different weighting factors. The amount of time the battery has spent in each bin is multiplied by the corresponding weighting factors, and these values are summed to provide an overall degradation value of the battery. Charging or other aspects of the battery are then controlled according to this degradation value. | 2022-02-10 |
20220045535 | CHARGING CONTROL METHOD, CHARGING CONTROL DEVICE AND STORAGE MEDIUM - A charging control method includes that: for each charging stage among the multiple charging stages, a current rate of change threshold corresponding to a present charging stage is determined; a polling duration and current adjustment step corresponding to the present charging stage are determined, a ratio of the current adjustment step to the polling duration being greater than the current rate of change threshold; and in the present charging stage, a charging current value is detected according to the polling duration, and in response to determining the charging current value is greater than a specified current threshold, a current is adjusted according to the current adjustment step. | 2022-02-10 |
20220045536 | CHARGING SYSTEM - A charging system includes a power transfer device and a rapid charging battery. The power transfer device includes a first power transfer unit being compatible with a first charging standard specifying that the rapid charging battery is to be charged at a predetermined current value. The rapid charging battery includes a first charging unit being compatible with the first charging standard, and a second power transfer unit being compatible with a second charging standard specifying that power is to be transferred at a predetermined current value that is lower than the predetermined current value specified by the first charging standard. | 2022-02-10 |
20220045537 | UNIVERSAL CHARGING DEVICE AND UNIVERSAL CHARGING METHOD THEREOF - A universal charging device and a universal charging method thereof is disclosed. An AC voltage is converted into a DC charging voltage. At least two first charging processes are sequentially performed. In each first charging process, the DC charging voltage is adjusted to be larger than the terminal voltage of a battery based on the terminal voltage and the DC charging voltage charges the battery. The DC charging voltage generates a DC charging current and a pulse current to flow through the battery until the terminal voltage is equal to the DC charging voltage. A voltage across the battery established by the pulse current satisfies a charged condition. When the terminal voltage is equal to the DC charging voltage, the DC charging current is converted into a decreasing trickle current until the value of the trickle current is decreased to a triggered current value. | 2022-02-10 |
20220045538 | ELECTRONIC DEVICE FOR CHARGING BATTERY BASED ON DIRECT CHARGING AND OPERATING METHOD OF THE ELECTRONIC DEVICE - An electronic device includes a charging integrated circuit (IC) including a direct charging circuit that charges a battery; and an application processor that issues a request to an external power source to output a maximum voltage corresponding to a target current, performs a ramp-up operation on a charging current input to the charging IC on the basis of the maximum voltage, compensates for a difference between the charging current and the target current in response to the charging current entering a constant current period, and enters a sleep mode during the constant current period in response to that the charging current reaching the target current. | 2022-02-10 |
20220045539 | METHOD AND APPARATUS FOR DETERMINING CHARGING CIRCUIT, ELECTRONIC DEVICE, AND STORAGE MEDIUM - A method for determining a charging circuit, includes: acquiring a preset equivalent circuit model including a preset number of charging paths, wherein one or more of the preset number of charging paths includes a controllable device; controlling an operating state of each controllable device to obtain initial equivalent circuits each including respective different charging paths; acquiring a charging current in each charging path of each of the initial equivalent circuits in a charging state; for each of the initial equivalent circuits, acquiring a heat loss value of the initial equivalent circuit based on the charging current in each charging path of the initial equivalent circuit and a resistance value of each equivalent device in the equivalent circuit model; and determining one of the initial equivalent circuits having a minimum heat loss value under a same condition as a target charging circuit. | 2022-02-10 |
20220045540 | SYSTEMS AND METHODS FOR ADJUSTING INPUT POWER AND/OR OUTPUT POWER OF CHARGING SYSTEMS - System controller and method for changing an input power and/or an output power of a charging system. For example, a system controller for changing an input power of a charging system that is configured to receive an input voltage and charge a device includes: a first controller terminal configured to receive a first voltage indicating a temperature; and a second controller terminal configured to output a second voltage to affect the input power of the charging system; wherein the system controller is further configured to, if the first voltage indicates that the temperature is higher than a temperature threshold: in response to the temperature increasing, decrease the input power of the charging system; and in response to the temperature decreasing, increase the input power of the charging system. | 2022-02-10 |
20220045541 | WEARABLE DEVICE CLEANING AND CHARGING DEVICE - The present disclosure relates to a device which charges and cleans a personal wearable device. The device includes a wireless charging circuit disposed within the device, and an ultraviolet light source disposed within the device. Further disclosed is a system which includes a device and a personal wearable device. The device includes a charging unit including wireless charging circuitry, and a cleaning unit including at least one ultraviolet light source; and a personal wearable device. | 2022-02-10 |
20220045542 | METHOD AND SYSTEM FOR TEMPERATURE REGULATION FOR A PORTABLE CHARGER - Systems, devices, and methods including a first pair of redundant temperature sensors proximate a first plug; a second pair of redundant temperature sensors proximate a second plug; a first microcontroller connected to a plugsense line and a ground line, where the first microcontroller may be configured to receive temperature data from the first pair of redundant temperature sensors and the second pair of redundant temperature sensors; and a first switch configured to receive a data packet comprising temperature data from the first pair of redundant temperature sensors and the second pair of redundant temperature sensors, where the first switch transmits the data packet by lowering voltage in the plugsense line. | 2022-02-10 |
20220045543 | ISOLATED MULTI-PORT RECHARGE SYSTEM - A multi-port recharge system. In some embodiments, the multi-port recharge system includes a transformer having one or more secondary windings, each of which connects to a non-isolated AC to DC converter. The primary of the transformer may connect to medium voltage utility power. | 2022-02-10 |
20220045544 | BATTERY MONITORING DEVICE - In a battery monitoring device for monitoring a state of a rechargeable battery that includes an electrolyte and a plurality of electrodes, a response signal input unit is configured to receive a response signal of the rechargeable battery to a predefined AC signal, and a calculation unit is configured to calculate a complex impedance of the rechargeable battery based on the response signal. A power supply unit is configured to receive a power supply voltage from the rechargeable battery and supplies the power supply voltage to at least the calculation unit. A first electrical path connecting the rechargeable battery to the power supply unit and a second electrical path connecting the rechargeable battery to the signal control unit are provided independent of each other. The signal control unit is configured to cause the rechargeable battery to be monitored, as a power source, to output the predefined AC signal. | 2022-02-10 |
20220045545 | TECHNIQUES TO REGULATE CHARGING WITH AN ALTERNATOR AND A BATTERY TO MINIMIZE VEHICLE FUEL CONSUMPTION - Charging control techniques for a vehicle including an engine that drives an alternator configured to charge a battery of the vehicle comprise modeling a fuel consumption of the alternator for each load level across a range of alternator loads using an engine torque model and a set of operating parameters of the engine, determining an energy output from the alternator for each load level across the range of alternator loads, calculating a cost-to-charge metric based on the modeled alternator fuel consumption and the determined alternator energy output for each duty cycle across a range of duty cycles of the alternator, determining an optimal cost-to-charge from the calculated cost-to-charge metrics, determining a target cost-to-charge metric based on a state of charge of the battery, and operating the alternator accordingly at an optimal duty cycle based on the metrics and current engine operating conditions. | 2022-02-10 |
20220045546 | BATTERY CHARGING SYSTEM, CHARGING DEVICE, INFORMATION PROCESSING DEVICE, BATTERY CHARGING METHOD, PROGRAM, AND STORAGE MEDIUM - A battery charging system includes a battery removably mounted on an electric power device using electric power, a charging device configured to charge the battery using renewable power which is electric power generated from renewable energy, and a server configured to communicate with the charging device. The charging device is configured to control charging of the battery accommodated in an accommodation unit on the basis of reception information received from the server. The server is configured to compare receivable power, which is the renewable power capable of being received by the charging device, with a threshold value and configured to transmit transmission information for causing the charging device to control the charging of the battery to the charging device on the basis of a result of comparing the receivable power with the threshold value. | 2022-02-10 |
20220045547 | SYSTEMS, METHODS, AND APPARATUSES FOR DISTRIBUTING BACKUP ELECTRICAL POWER - In an example method, a power management system receives sensor data regarding an operation of a primary power source, a secondary power source, an environmental regulation system, and a plurality of electrically-powered sub-systems. Further, the system receives a plurality of parameter sets for the sub-systems, each including a first parameter indicting a priority of a respective sub-system relative to the other sub-systems, a second parameter indicating an amount of heat dissipated by the respective sub-system during operation, and a third parameter indicating a temperature requirement associated with the respective sub-system. The system controls, based on the sensor data and the parameter sets, a delivery of electrical power from the primary and secondary power sources to the environmental regulation system and the sub-systems. Further, the system controls, based on the sensor data and the parameter sets, a consumption of electrical power by the environmental regulation system and the sub-systems. | 2022-02-10 |
20220045548 | INFORMATION PROCESSING DEVICE, INFORMATION PROCESSING SYSTEM, INFORMATION PROCESSING METHOD, AND POWER SUPPLY EQUIPMENT - An information processing device includes a control unit configured to generate power supply permission information that is information permitting power to be supplied to a device electromagnetically connected to power supply equipment, and output the power supply permission information to the power supply equipment. | 2022-02-10 |
20220045549 | WIRELESS CHARGING DEVICE - A wireless charging device according to various embodiments of the present disclosure comprises: a wireless charging device body; and a wireless power transmitting device disposed on the wireless charging device body so as to face a wireless power receiving device provided on an external electronic device. The wireless power transmitting device comprises at least one transmitting coil and a transmitting magnetic body configured to surround the at least one transmitting coil and to face a receiving magnetic body provided on the wireless power receiving device. The inner peripheral surface of the wireless power transmitting device faces the inner surface of the wireless charging device body. When the wireless charging device body and the external electronic device are coupled, the outer peripheral surface of the wireless power receiving device and the inner peripheral surface of the wireless power transmitting device face each other. The transmitting magnetic body is formed in a ring structure, at least a part of which is open. One surface of the open ring structure of the transmitting magnetic body is disposed on at least a part of the inner surface of the wireless charging device body. One surface of the ring structure of the transmitting magnetic body faces the receiving magnetic body. When an electric current is applied to the transmitting coil, an electromagnetic field for inducing electric power in the receiving coil may be generated in the transmitting magnetic body. | 2022-02-10 |
20220045550 | Antenna Arrangement and a Method of Operating an Antenna Arrangement - The invention relates to an antenna arrangement, wherein the antenna arrangement comprises a voltage source, a first inductive antenna element, a second inductive antenna element and at least one capacitive element, wherein the voltage source is electrically connected in parallel to a series connection of a first circuit section comprising at least the first inductive antenna element and a further circuit section comprising a parallel connection of a first subsection of the further circuit section comprising the at least one capacitive element and a further subsection of the further circuit section comprising at least the second inductive antenna element, and a method of operating an antenna arrangement. | 2022-02-10 |
20220045551 | Wireless Power Transfer Adaptation and Communications - A device operative to transfer power wirelessly includes a drive-sense circuit (DSC), memory that stores operational instructions, and processing module(s). The DSC generates a drive signal based on a reference signal and provides the drive signal to a first coil via a single line and via a resonating capacitor, and simultaneously senses the drive signal via the single line, to facilitate electromagnetic coupling to a second coil to transfer power wirelessly to another device. The DSC also detects electrical characteristic(s) of the drive signal. The processing module(s) generates the reference signal and processes the digital signal to determine the electrical characteristic(s) of the drive signal. In some examples, the processing module(s) adapts the reference signal based on detection of the other device (e.g., based on interpreting the electrical characteristic(s) of the drive signal). | 2022-02-10 |
20220045552 | WIRELESS CHARGING METHOD, RECEIVER, TERMINAL DEVICE, AND CHARGER - A wireless charging method, a receiver, a terminal device, and a charger are provided. A receiver ( | 2022-02-10 |
20220045553 | POWER RECEIVING APPARATUS, POWER TRANSMITTING APPARATUS, CONTROL METHODS THEREFOR, AND STORAGE MEDIUM - A power receiving apparatus that wirelessly receives power from a power transmitting apparatus comprises a first communication unit communicating with the power transmitting apparatus, a second control unit executing detection of another apparatus capable of performing short-range wireless communication and a first control unit controlling whether to execute the detection by the second control unit. The first control unit, in a case where it is determined that the power transmitting apparatus does not have the detection function, controls to execute the detection by the second control unit when a detection status of another apparatus by the second control unit is undetermined, and not to execute the detection by the second control unit when the detection status is determined. The first communication unit transmits, to the power transmitting apparatus, a signal corresponding to a result of the detection by the second control unit. | 2022-02-10 |
20220045554 | WIRELESSLY CHARGE MULTIPLE WIRELESS-POWER RECEIVERS USING DIFFERENT SUBSETS OF AN ANTENNA ARRAY TO FOCUS ENERGY AT DIFFERENT LOCATIONS, AND SYSTEMS AND METHODS OF USE THEREOF ELECTROMAGNETIC WAVES TO - Wireless charging systems, and methods of use thereof, are disclosed herein. As an example, a method includes: (i) receiving, by a communications radio of a wireless power transmitter, a communication signal from a communications radio of a wireless power receiver, (ii) determining a signal strength of the communication signal, (iii) determining whether the receiver device is within a proximity threshold from the transmitter based, at least in part, on the signal strength of the communication signal, and (iv) determining at least one waveform characteristic for wireless power transmission waves based, at least in part, on the signal strength of the communication signal. The method further includes, in response to determining that the receiver device is within the proximity threshold: activating one or more antennas of the plurality of antennas to transmit the wireless power transmission waves to the receiver device. | 2022-02-10 |
20220045555 | WIRELESS CHARGING METHOD AND SYSTEM - A wireless charging method includes: (a) providing a charging device, wherein the charging device includes at least one charging region for a smart device to place thereon, the charging device is configured to charge the smart device when executing a charging task, the charging task includes at least one charging subtask, and the charging device is configured to detect whether there is a detection object on the charging region when executing a detection task, and the detection task includes a plurality of detection subtasks; (b) executing a charging initialization program and a communication initialization program; and (c) executing the plurality of detection subtasks and at least one charging subtask, wherein the at least one charging subtask is interspersed and executed among the plurality of detection subtasks. | 2022-02-10 |
20220045556 | ELECTRONIC DEVICE AND METHOD FOR TRANSMISSION OF REASON WIRELESS CHARGING IS STOPPING - An electronic device may include a display, a power reception circuit, and a processor. The processor may perform wireless charging by receiving power wirelessly from an external electronic device through the power reception circuit, and receive data on one or more reasons to stop wireless charging from the external electronic device during the wireless charging. Also, the processor may transmit acknowledge (ACK) data to the external electronic device in response to receiving the data on the one or more reasons to stop wireless charging, and display, through the display, at least one reason to stop wireless charging included in the data on the one or more reasons to stop wireless charging. Other embodiments are possible. | 2022-02-10 |
20220045557 | TRANSMITTER APPARATUS AND TRANSMISSION METHOD FOR A WIRELESS POWER TRANSMISSION SYSTEM PROVIDING IMPROVED WIRELESS POWER TRANSMISSION EFFICIENCY - A wireless power transmission system includes a receiver position identifier unit configured to determine the positions of receiver apparatuses; a signal transmitter unit comprising antennas arrayed in a pre-designated pattern and configured to radiate wireless power signals by forming a beam in a pattern corresponding to signals supplied respectively to the antennas; and a beamforming unit configured to improve a wireless power transmission efficiency by temporarily setting a frequency vector, which is for designating frequencies of the signals supplied to the antennas, and a beamforming vector, which is for designating phases and gains of the signals, based on the positions of the receiver apparatuses and alternatingly iteratively estimating the other vector to enhance power transmission efficiency such that a multi-lobe beam pattern radiated simultaneously in the directions of the receiver apparatuses is formed in the antennas. | 2022-02-10 |
20220045558 | Translation Unit for Wireless Power Transfer - In an embodiment, a wireless power transmitter module includes a sensing grid configured to detect a receiver, a movable wireless power transmitter unit including a wireless power transmitter coil, and a two-dimensional linear motor including a plurality of linear motor coils configured to move the movable wireless power transmitter unit in a two-dimensional plane towards a location of the receiver. | 2022-02-10 |
20220045559 | SEGMENTED STATOR FOR A PERMANENT MAGNET ELECTRIC MACHINE HAVING A FRACTIONAL-SLOT CONCENTRATED WINDING - Disclosed are various embodiments for electric machines with fractional concentrated winding having a coil winding assembly with at least a first and a second laminated stator pole segment, each of the laminated stator pole segments having the shape of a tapered H and mechanically joined together to form a ring-like stator core with a plurality of circumferentially distributed stator poles and slots for coils, the first and second stator pole segments comprising a plurality of laminated stator pole segment pieces oriented in a radial direction and coupled together to form a unified stator pole segment with a 3D flux path, and wherein the laminations of each of the laminated stator pole segment pieces has the shape of a U. | 2022-02-10 |
20220045560 | ELECTRIC MACHINE HAVING VIBRATION ATTENUATING STATOR LAMINATIONS - An electric machine includes a stator formed from a plurality of stacked laminations and defining a center bore and a rotor disposed within the center bore. The rotor is configured to output a rotational torque in response to an input current delivered to the stator. At least one of the stacked laminations of the stator includes a pattern of perforations disposed at a yoke portion of the stator to attenuate structure-bore transmission of vibration during operation of the electric machine. | 2022-02-10 |
20220045561 | ROTOR OF ROTARY ELECTRIC MACHINE - A rotor for a rotary electric machine includes: a rotational shaft that is made of an iron-based metal, and includes a flange; a cylindrical rotor core that is made of a magnetic material, and includes a slot axially extending through the rotor core; a permanent magnet inserted in the slot; an annular first end plate that is made of a non-magnetic material, is shrink-fitted or press-fitted to the rotational shaft, and closes an opening of the slot; an annular fixing plate that is made of an iron-based metal, is shrink-fitted or press-fitted to the rotational shaft, and is disposed radially innerly with respect to the slot; an annular second end plate that is made of a non-magnetic material, includes a recession containing the fixing plate, and closes an opening of the slot; and a fixing tool coupling the second end plate to the fixing plate. | 2022-02-10 |
20220045562 | SYSTEM AND METHOD FOR CLEAN MAGNETIC POWER GENERATION USING PERMANENT MAGNETS AND ELECTRO MAGNETS - In some embodiments, the present invention may include, for example, systems, devices, and methods for power generation using a permanent magnet and/or an electro magnet installed on a twisted band wheel or wheels and/or installed on stationary discs and plates. Due to magnetic field forces for example between the stationary discs and the twisted band, the twisted band may be driven to move (e.g., rotate), rotation of the twisted band is optionally transferred by an axle to a generator. | 2022-02-10 |
20220045563 | ROTOR HAVING FIXING PROTRUSIONS PROVIDED ASYMMETRICALLY BASED ON SHAFT KEY - A rotor applied to a driving motor may include a plurality of rotor cores configured to define a plurality of slots, into which permanent magnets are inserted, wherein each of the rotor cores includes a first zone and a second zone different from each other in terms of positions at which fixing protrusions configured to fix the permanent magnets are provided in the slots, and the rotor cores are stacked such that the first zones of some of the rotor cores overlap the second zones of some of the rotor cores. | 2022-02-10 |
20220045564 | ROTOR - There is provided a rotor that is capable of improving torque and rotational speed while securing mechanical strength. The rotor is equipped with a plurality of outer radial-side magnet slots | 2022-02-10 |
20220045565 | ROTOR PLATE, ROTOR, MOTOR AND VEHICLE INCLUDING SAME - The present invention provides a motor comprising, a shaft, a rotor including a shaft hole in which the shaft is disposed, the rotor including a plurality of rotor plates stacked to each other and a stator disposed outside the rotor, wherein each rotor plate includes a plurality of guide pin holes disposed around the shaft hole in a circumferential direction and a skew check hole including a skew reference surface, wherein an outer circumferential surface of each rotor plate is attached with magnets, and an angle between lines connecting centers of the adjacent guide pin holes with a center of the shaft hole is greater than a skew angle of each rotor plate. | 2022-02-10 |
20220045566 | ROTOR OF ROTARY ELECTRIC MACHINE - A rotor of a rotary electric machine includes a rotor core and a magnetic pole portion. The magnetic pole portion includes a magnet portion having at least two layers along a radial direction, which has an outer diameter side magnet portion including an outer diameter side arc magnet and an inner diameter side magnet portion including a pair of inner diameter side arc magnets arranged with a d-axis interposed. In addition, a pair of ribs extending in the radial direction are respectively provided between d-axis side end surfaces of the pair of inner diameter side arc magnets and the d-axis. A gap portion is provided between the pair of ribs to overlap the d-axis. | 2022-02-10 |
20220045567 | Cavity Structure for Permanently Excited Electric Machines With Embedded Magnets - A rotor includes at least two rotor poles, a rotor iron core which has at least one cavity per rotor pole, wherein webs are formed between the cavities and the exterior of the rotor iron core in the radial direction and an embedded permanent magnet assembly for generating a magnetic air gap flux density, the assembly having at least one permanent magnet per rotor pole in the respective cavity. In order to influence the curve of the magnetic air gap flux density, magnetic flux blocking sections and magnetic flux conducting sections are arranged in an alternating manner in the at least one web of each rotor pole along the circumferential direction, wherein the magnetic flux blocking sections are designed to conduct a magnetic flux within the adjacent magnetic flux conducting section and have different geometries in the circumferential direction starting from a rotor pole center to rotor pole edges. | 2022-02-10 |
20220045568 | METHOD AND APPARATUS FOR MOTOR COOLING - For cooling an electric machine having stator windings, a housing including a series of interleading compartments is provided, the compartments being adapted for sealingly and removably enclosing one or more of the stator windings, so that during operation of the machine, a fluent coolant passing through the compartments and immersing the windings removes heat from the windings by thermal conduction. The disclosure has application to electric machines such as electric motors and generators, providing a modularised cooling system for the individual stator windings, allowing each one to be removed if necessary without requiring removal of the whole stator winding assembly. | 2022-02-10 |
20220045569 | MOTOR AND COMPRESSOR - A motor includes a rotor, and a stator that generates a magnetic field to rotate the rotor. The stator includes a plurality of teeth, a plurality of winding wires including a winding portion wound around each of the plurality of teeth, a neutral wire provided on one end side of the winding portion, and a power wire provided on the other end side of the winding portion, and a plurality of neutral points at which a plurality of the neutral wires is electrically connected by connection terminals. The plurality of neutral wires includes a plurality of first fixation portions in which the plurality of neutral wires is fixed to each other in positions that are on a winding portion side compared to the plurality of neutral points, and a second fixation portion in which the plurality of neutral wires is fixed to each other from the plurality of first fixation portions to the plurality of neutral points. | 2022-02-10 |
20220045570 | MOTOR WIRING MEMBER - A motor wiring member configured to supply three-phase alternating current to a motor includes conductive wires, each of which has a connecting portion being provided at one end and being configured to be connected to a coil end of a stator of the motor, a terminal being provided at an other end of each conductive wire and being configured to be connected to an electrode of a terminal block, and a surge suppression section being configured to suppress an overvoltage from being applied to the motor. The surge suppression section includes three series circuits, each of which includes a resistor and a capacitor. One ends of the three series circuits are electrically connected to the conductive wires of respective phases, and other ends of the three series circuits are electrically connected to each other. The surge suppression section is provided along with the conductor wires near the terminal and is located between the terminal and the connecting portion. | 2022-02-10 |
20220045571 | Ceiling fan motor - A ceiling fan motor contains: a stator, at least one hook, and multiple coil winding sets, and an enameled wire connected with two coil winding sets and hooked by the at least one hook. The at least one hook is formed as a respective connection member of multiple connection members, and the multiple connection members are fixed in the stator. | 2022-02-10 |
20220045572 | MOTOR AND EXHAUST METHOD FOR MOTOR CAVITY - The present invention provides a motor, comprising: a housing; a motor stator located in the housing; a motor output shaft located in the housing; and an exhaust device connected to the housing and configured to exhaust air from the interior of the housing. According to an implementation mode of the present invention, a turbine device is mounted on the motor output shaft; when the motor rotates, an inner cavity of the motor is evacuated to be in a negative pressure state; the higher the motor speed, the lower the air pressure inside the motor, the higher the vacuum degree, and the smaller the frictional resistance between a rotor and the air, so that the motor speed can be effectively increased and a rotor having a relatively large diameter can be used, thereby enhancing the low speed torque while increasing the power density of the motor and facilitating the design of a high power motor. | 2022-02-10 |
20220045573 | GENERATOR COOLING SYSTEM FOR TURBO-FAN ENGINE - A system capable of appropriately cooling a generator and a power cable connected to the generator, disposed in a hot section of a turbo-fan engine, regardless of a rating of the engine is provided. The system includes: a junction box; a bypass air duct that supplies, to the junction box, air extracted from a portion of a bypass flow path of the engine on a side further downstream than a fan outlet; a core air duct that supplies, to the junction box, air extracted from a portion of a core flow path of the engine on a side further upstream than a compressor outlet; and a cooling air duct that extends from the junction box to a space for accommodating the generator, and valves capable of being independently controlled to open and close are provided at downstream ends of the bypass air duct and the core air duct. | 2022-02-10 |
20220045574 | DRIVING DEVICE - A driving device includes an electric motor, a drive gear, a deceleration mechanism, a driven gear, and a housing. At least either one of the drive gear and the driven gear is provided as a helical gear. The deceleration mechanism includes a plurality of reduction gear shafts, a plurality of bearings, and a biasing member provided for at least any one of the bearings. The biasing member axially biases an outer ring of the at least any one of the bearings that supports at least either one of end parts of the shaft portion of a corresponding one of the reduction gear shafts, the end parts including an end part on the large-diameter gear wheel side and an end part on the small-diameter gear wheel side. | 2022-02-10 |
20220045575 | Cooling Device for a Stator of an Electrical Machine, Electrical Machine and Motor Vehicle - A cooling device for a stator of an electrical machine, for fitting together with a hollow cylindrical laminated core of the stator, includes multiple cooling channels for conducting cooling fluid along the laminated core, and a fluid ring for provision on an end face of the laminated core. The fluid ring has two fluid ring channels for distributing the cooling fluid to the cooling channels and for receiving the cooling fluid from the cooling channels, and at least two cooling fluid connections for introducing and removing the cooling fluid into and from the fluid ring channels. The fluid ring channels have circumferential-angle-dependent flow cross-sections in the flow direction, in order to evenly distribute the cooling fluid to the cooling channels. | 2022-02-10 |
20220045576 | STACK OF LAMINATIONS FOR A STATOR HAVING COOLING CHANNELS - An electric machine system is provided. The system includes a stack of a plurality of stator laminations with at least a portion of the plurality of stator laminations each including a plurality of holes that are arranged radially outward from a plurality of teeth, where the plurality of holes include a first set of holes, a second set of holes, and a third set of holes, where the first, second, and third sets of holes has a different profile and/or area, where the second set of holes are positioned radially inward from the third set of holes; and where a plurality of oil channels are formed by an alignment of holes in adjacent stator laminations in the portion of the plurality of stator laminations. | 2022-02-10 |
20220045577 | ELECTRIC MOTOR FOR AN AXLE ASSEMBLY - An electric motor for use in an axle assembly. The electric motor includes a stator having a stator core, and a rotor adapted for rotation about a rotor axis within the stator core. The stator includes a series of conductive windings that are disposed about the stator core. The windings are wound in a direction generally parallel to the rotor axis and protrude from first and second ends of the stator core. The stator core is formed to include a plurality of longitudinal passageways that are radially arranged about the stator core and are adapted to permit the flow of a cooling fluid through the passageways. The passageways of the stator core extend longitudinally through the stator core and are positioned between the windings such that heat generated by the windings is transferred to the cooling fluid to remove heat from the windings. The motor also includes a metering ring coupled to a first end of the stator core and a discharge ring coupled to a second end of the stator core. The rings are adapted to direct the flow of cooling fluid through the passageways of the stator core to remove heat from the windings generated by operation of the electric motor. | 2022-02-10 |
20220045578 | ROTATING ELECTRICAL MACHINE - A rotating electrical machine includes a rotor and a magnet unit. The rotating electrical machine also includes a cylindrical stator and a housing. The stator is equipped with a stator winding made up of a plurality of phase windings. The stator is arranged coaxially with the rotor and faces the rotor. The housing has the rotor and the stator disposed therein. The rotor includes a cylindrical magnet retainer to which the magnet unit is secured and an intermediate portion which connects between a rotating shaft of the rotor and the magnet retainer and extends in a radial direction of the rotating shaft. A first region located radially inside an inner peripheral surface of a magnetic circuit component made up of the stator and the rotor is greater in volume than a second region between the inner peripheral surface of the magnetic circuit component and the housing in the radial direction. | 2022-02-10 |
20220045579 | SCREWING MACHINE AND TORQUE SENSOR - A screwing machine includes a motor, an output shaft, a twist portion, a plate portion, a strain gauge, an amplification circuit. The output shaft is driven by the motor. To the output shaft, a bit is attachable. The twist portion is hollow. To the twist portion, torque applied to the output shaft is transmitted through a transmission element. The output shaft is configured to be indirectly twisted by the torque applied to the output shaft. The plate portion is integrally formed with the twist portion. The strain gauge is disposed on the twist portion. The amplification circuit is disposed on the plate portion. To the amplification circuit, a signal from the strain gauge is input. | 2022-02-10 |
20220045580 | ELECTRICAL FILTERING SYSTEM FOR A SMART ELECTRIC MOTOR WITH DECOUPLED MULTIPLE WINDINGS AND ASSOCIATED SMART ELECTRIC MOTOR - An electrical filtering system including capacitors and an electrical distribution device including a stack of two electrically conducting layers facing one another and separated by an insulating layer, the stack being mounted on a rigid insulating plate, and said capacitors being mounted on said distribution device, the rigid plate extending in a plane orthogonal to the direction in which the layers are stacked. The distribution device includes a plurality of electrical connections distributed angularly over the outer perimeter of the distribution device and protruding in a plane parallel to the plane in which the rigid plate extends, and extending from the outer perimeter of the distribution device, each of the connections being, on the one hand, connected to at least one capacitor and, on the other hand, intended to be connected to an arm of an electrical inverter mounted on a tubular electrical converter of an electronic control unit. | 2022-02-10 |
20220045581 | METHOD FOR PRODUCING A ROTOR FOR AN ELECTRIC ROTATING MACHINE - A method for producing a rotor for an electric rotating machine includes spraying in a rolling manner a first metallic material and a second metallic material, which is different from the first metallic material, onto at least part of a substantially cylindrical outer surface of a shaft body by a thermal spraying method to form on the shaft body a coating which forms at least part of a squirrel cage. | 2022-02-10 |
20220045582 | METHOD OF MANUFACTURING A THREE-DIMENSIONAL FLUX STRUCTURE FOR CIRCUMFERENTIAL FLUX MACHINES - Disclosed are various embodiments for assembling a new and improved electrical motor/generator, specifically a method of producing a coil assembly is disclosed comprising: pressing a plurality of individual teeth having interlocking side features, applying a conductor around one of the interlocking side features, coupling a tooth of the coil assembly with an adjacent tooth, applying a second conductor around one of the interlocking side features of the adjacent tooth, repeating the coupling and applying steps until an entire ring has been assembled. | 2022-02-10 |
20220045583 | PULLING WINDINGS INTO A STATOR LAMINATION STACK - Disclosed Is a method for pulling a stator winding system of an electric machine into a stator lamination stack of the electric machine and to a winding tool, with the stator lamination stack having stator grooves which run parallel to a rotation axis of the electric machine and are distributed in a circle around the rotation axis and open thereto and which have on an end facing the rotation axis a gap region which is narrowed relative to the rest of the stator groove. Windings are arranged in the stator grooves, and winding overhangs, as seen in the direction of the rotation axis, protrude from the stator lamination stack at the two axial ends thereof, with the windings formed in the stator grooves as laid windings. The stator lamination stack has no guide structures on the two axial ends for guiding the individual turns of the windings. | 2022-02-10 |
20220045584 | ELECTRIC MACHINE ROTOR AND METHOD OF FORMING - A method and apparatus for forming a rotor for an electric machine includes serially adding layers of material to form a rotor body having a radially-extending post configured to receive a set of electrically-conductive windings, and also having a radially-extending winding end turn support formed contiguously from the rotor body. | 2022-02-10 |
20220045585 | MOTOR/GENERATOR SYSTEM AND METHOD - An electromagnetic motor/generator comprising a flux assembly having at least one coil and at least one magnetic field source separated by a first gap and a second gap and an interference drum which is movable relative to the at least one coil and to the at least one magnetic field source to alternatively position at least one first magnetically permeable section and at least one second magnetically permeable section inside the first and second gaps. | 2022-02-10 |
20220045586 | Electric Motor with Selective Flux Stator - A synchronous electrical motor, which may operate poly-phase electrical power, is configured to operate at a rated flux configuration and a high flux configuration. To enable the high flux configuration, some coils wound about the stator of the electric motor can be designated bypass coils and can be selectively disconnected from the power source supplying the motor with electrical power. The remaining permanent coils continue to receive full line power and generate a rotating magnetic field with an increased magnetic flux. At startup from standstill conditions, the bypass coils are selectively disconnected so that a flux boost occurs and a corresponding increase in output torque of the electric motor. | 2022-02-10 |
20220045587 | ELECTRIC MACHINE - An electric machine is provided. The electric machine defines a centerline and includes: a stator assembly; a rotor assembly rotatable relative to the stator assembly about the centerline; and an actuator coupled to the rotor assembly, the stator assembly, or both for moving the rotor assembly, the stator assembly, or both along the centerline between a first position and a second position, the rotor assembly positioned closer to the stator assembly when in the first position than when in the second position. | 2022-02-10 |
20220045588 | ELECTRIC MOTOR - A stator of an electric motor is rotated and a rotational force of the stator is used for a rotation of a rotor. Thus, the electric motor capable of obtaining high output is provided. A stator | 2022-02-10 |
20220045589 | ROTOR, ELECTRIC MOTOR, AIR BLOWER, AIR CONDITIONER, AND METHOD FOR FABRICATING ROTOR - A rotor includes at least one first permanent magnet and at least one second permanent magnet. The at least one first permanent magnet forms part of an outer peripheral surface of the rotor and is magnetized to have polar anisotropy. The at least one second permanent magnet is adjacent to the at least one first permanent magnet in a circumferential direction of the rotor and has lower magnetic force than magnetic force of the at least one first permanent magnet. | 2022-02-10 |
20220045590 | VIBRATION CONTROL DEVICE - A vibration control device includes: a rotor formed of a soft magnetic body and fixed to an output shaft of a rotation driver or to a shaft that rotates in conjunction with the output shaft, the rotor being configured to rotate in response to rotation of the output shaft; a stator provided in a radial circumference of a rotation axis of the rotor; coils fixed to the stator and provided in a pair with the rotation axis therebetween; a charger-discharger provided in such a manner as to be connectable to the coils; a switching circuit provided capable of switching between connecting and disconnecting the coils and the charger-discharger; a first detector configured to detect a rotation angle of the rotor; and a control circuit configured to control operation of the switching circuit in accordance with the rotation angle of the rotor. | 2022-02-10 |
20220045591 | VIBRATION ACTUATOR AND ELECTRONIC EQUIPMENT - A vibration actuator includes a movable body provided with one of a coil and a magnet that is disposed radially inward of the coil with a gap formed therebetween, a fixing body provided with the other of the coil and the magnet and a shaft portion, and an elastic support portion, the movable body vibrating in a vibration direction by means of cooperation between the coil supplied with power and the magnet. The movable body is provided with a through-hole into which the shaft portion is inserted with a gap formed between the through-hole and an outer peripheral surface of the shaft portion and the elastic support portion supports the movable body such that the movable body does not come into contact with the shaft portion at a time when the movable body does not vibrate and at a time when the movable body vibrates. | 2022-02-10 |
20220045592 | LIQUID HEAT EXCHANGER FOR ELECTRONIC DEVICE - In some examples, a system can include an electronic device and a cooling system that transfers heat among other components of the system. The cooling system can include a pipe that contains a fluid, for example. In some examples, the cooling system can further include a magnetic piston, one or more electromagnetic coils, and a power supply. The electromagnetic coils and power supply can generate a magnetic field that moves the piston to cause the fluid to circulate in the fluid pipe. In some examples, the cooling system can further include a magnet and one or more pairs of electrodes coupled to a power supply. The magnet, electrodes, and power supply can generate a Lorentz force that causes a conductive fluid to circulate in the fluid pipe. | 2022-02-10 |
20220045593 | ENERGY GENERATION - An energy generation apparatus comprises a first element comprising at least one first magnet and a second element comprising at least one second magnet. The second element is movable with respect to the first element. The at least one first magnet and the at least one second magnet are oriented such that common poles of the at least one first and second magnets are temporarily in proximity to each other such that a repulsive magnetic force between the at least one first magnet and at least one second magnet causes relative motion between the first and second elements. Preferred embodiments of the apparatus comprise at least one positioning element or cam comprising an undulating or wave-like surface to control a position and/or an orientation of the at least one first magnet and/or the at least one second magnet. | 2022-02-10 |
20220045594 | LINEARLY ACTUATED MAGNETIC COUPLING DEVICE - The present disclosure relates to magnetic coupling devices. More specifically, the present disclosure relates to magnetic coupling devices configured to be linearly actuated and de-actuated. | 2022-02-10 |
20220045595 | CONTROL APPARATUS FOR POWER CONVERSION APPARATUS - A control apparatus for a power conversion apparatus acquires a detected voltage of an alternating-current power supply. The control apparatus determines a period from when the detected voltage exceeds a first determination value for determining a zero-up-crossing timing of an actual voltage of the alternating-current power supply until the detected voltage falls below a second determination value for determining a zero-down-crossing timing of the actual voltage to be a period during which the actual voltage has a positive polarity, and determines a period from when the detected voltage falls below the second determination value until the detected voltage exceeds the first determination value to be a period during which the actual voltage has a negative polarity. The first determination value is less than the detected voltage when the actual voltage is zero, and the second determination value is greater than the detected voltage when the actual voltage is zero. | 2022-02-10 |
20220045596 | DRIVE CIRCUIT FOR POWER SEMICONDUCTOR ELEMENT AND POWER SEMICONDUCTOR MODULE EMPLOYING THE SAME - A drive circuit drives a power semiconductor element including a control terminal, a first main electrode, and a second main electrode. The drive circuit includes a first switching-off circuit and a second switching-off circuit each for turning off the power semiconductor element. The second switching-off circuit is lower in impedance than the first switching-off circuit. In a case where the power semiconductor element is turned off, only the first switching-off circuit operates when the power semiconductor element is in an unusual state, and the first switching-off circuit and the second switching-off circuit complementarily operate when the power semiconductor element is in a normal state. | 2022-02-10 |
20220045597 | INTERACTIVE ILLUSTRATION SYSTEM, INTERACTIVE ANIMATION SYSTEM, AND METHODS OF USE - An interactive illustration system, interactive animation system, and methods of use are presented. The present disclosure reveals an illustration and/or narrative and/or geometric figure in subsequent layers so that a user can be surprised by the coloring and engaged by the stimulus of the surprise created by the experience. The present disclosure relates to an interactive coloring system and animation system having gamification elements and interactive graphical features. More specifically, and without limitation, the present disclosure relates to interactivity and gamification in the coloring game genre. | 2022-02-10 |
20220045598 | POWER SUPPLY SYSTEM WITH SELF-EXCITED DRIVE FUNCTION - A power supply system with self-excited drive function includes a power supply apparatus, a logic disconnection circuit, a self-boosting circuit, a protection circuit, and a current sensing unit. The logic disconnection circuit is coupled between a positive power wire and a negative power wire. The self-boosting circuit converts a voltage into an auxiliary voltage, and the self-boosting circuit is coupled to the logic disconnection circuit to receive the auxiliary voltage. The current sensing unit outputs a current sensing signal according to a current flowing through the positive power wire or the negative power wire. The protection circuit makes a short circuit or an open circuit between the positive power wire and the negative power wire according to the current sensing signal. The logic disconnection circuit disables or enables the self-boosting circuit according to the voltage between the positive power wire and the negative power wire. | 2022-02-10 |
20220045599 | METHOD FOR CONTROLLING FAULT USING SWITCHING TECHNIQUE OF THREE PHASE FOUR WIRE INTERLINKING CONVERTER - A method for controlling a fault of a three phase four wire interlinking converter system according to one embodiment of the present disclosure comprises obtaining a first d-q-o coordinate plane based on an internal phase angle of output voltage produced from each phase of an inverter; converting the first d-q-o coordinate plane to a second d-q-o coordinate plane based on the o-axis configured differently from the first d-q-o coordinate plane; obtaining an output voltage vector for determining a fault location by performing d-q transform on the second d-q-o coordinate plane; determining occurrence of a fault and an area related to the fault based on the output voltage vector; and in the occurrence of the fault, allocating a zero voltage vector to the area related to the fault. | 2022-02-10 |
20220045600 | POWER CONTROLLER WITH SHORT-CIRCUITED PROTECTION AND METHOD OF CONTROLLING THE SAME - A power controller with short-circuit protection is disclosed to control a power switch, which is connected in series with a current-sense resistor and an inductive device between two power lines. The current-sense resistor provides a current-sense signal. The power controller includes a PWM signal generator and a short-circuit protection circuit. The PWM signal generator generates a PWM signal to the power switch to create switching cycles, each consisting of an ON time and an OFF time. The short-circuit protection circuit has a high-pass filter and a condition detector. The high-pass filter high-pass filters the current-sense signal to provide a filtered signal to the condition detector, which determines whether the filtered signal fits a predetermined condition during the ON time to generate a short-circuit protection signal and to prevent the power switch being turned on. | 2022-02-10 |
20220045601 | METHOD FOR CONTROLLING FAULT USING SWITCHING TECHNIQUE OF THREE PHASE FOUR WIRE INTERLINKING CONVERTER - A method for controlling a fault of a three phase four wire interlinking converter system according to one embodiment of the present disclosure comprises obtaining a first d-q-o coordinate plane based on an internal phase angle of output voltage produced from each phase of an inverter; converting the first d-q-o coordinate plane to a second d-q-o coordinate plane based on the o-axis configured differently from the first d-q-o coordinate plane; obtaining an output voltage vector for determining a fault location by performing d-q transform on the second d-q-o coordinate plane; determining occurrence of a fault and an area related to the fault based on the output voltage vector; and in the occurrence of the fault, allocating a zero voltage vector to the area related to the fault. | 2022-02-10 |
20220045602 | OVERHEAT PROTECTION CIRCUIT AND SWITCHING REGULATOR INCLUDING THE SAME - Provided is an overheat protection circuit with improved accuracy of overheat detection. The overheat protection circuit includes: an input terminal; an output terminal; a first transistor containing a first terminal, a second terminal, and a control terminal, the first transistor being switchable between ON and OFF; and a first NPN transistor containing a base to be connected to a node between the second terminal of the first transistor and the ground terminal, an emitter to be connected to the ground terminal, and a collector to be supplied with a constant current and connected to the output terminal, the first NPN transistor being switchable between ON and OFF in accordance with a voltage level of a reference voltage to be supplied to the base, the reference voltage having a temperature characteristic of having a temperature coefficient of zero or more. | 2022-02-10 |
20220045603 | SOFT-START FOR SWITCHING CONVERTER CONTROLLER WITH HYBRID HYSERETIC CONTROL (HHC) - A switching converter controller includes: a control loop adapted to be coupled to an output terminal of a power stage; and a hybrid hysteretic control (HHC) circuit coupled to the control loop. The HHC circuit includes a resonant capacitor voltage (Vcr) node adapted to be coupled to a resonant capacitor (Cr) of the power stage, where the Vcr node sums a sense voltage for Cr with a frequency compensation ramp. The HHC circuit also includes a soft-start controller coupled to the Vcr node. The soft-start controller includes a clamp circuit coupled to the Vcr node. | 2022-02-10 |
20220045604 | NON-REGULATED POWER CONVERTER WITH CURRENT SHARING CONTROL - According to an aspect, a non-regulated power converter includes a plurality of switching tank converter (STC) modules configured to be connected in parallel and to a load. The plurality of STC modules includes a first STC module configured to generate a first output current and a second STC module configured to generate a second output current. The first STC module includes an output current (OC) measuring circuit configured to measure a value of the first output current, and a dead time (DT) adjustor configured to compare the value of the first output current with a value of a minimum output current provided by the plurality of STC modules. The DT adjustor is configured to adjust a dead time in response to the value of the first output current being greater than the value of the minimum output current. | 2022-02-10 |
20220045605 | SYSTEM AND METHOD FOR POWER STAGE CURRENT-SENSE ACCURACY IMPROVEMENT IN A POWER SYSTEM - A power stage includes a power converter having high- and low-side switches, a driver circuit that drives the switching power converter based upon a PWM signal, and a current sensing circuit that detects a low-side current level on the low-side switch, and provides a current level signal that includes the low-side current level. The power stage turns on the low-side switch at a first time, and estimates a first low-side current level at the first time. In estimating the first low-side current level, the power stage detects a second low-side current level at a second time while the low-side switch is turned on, the second time being after the first time, and detects a third low-side current level at a third time while the low-side switch is turned on, wherein the third time is after the second time. The first low-side current level is estimated based upon the second and third low-side current levels. | 2022-02-10 |
20220045606 | VOLTAGE REGULATOR WITH HYBRID CONTROL FOR FAST TRANSIENT RESPONSE - The present invention provides a voltage regulator including a voltage control circuit and a current control circuit. The voltage control circuit is configured to receive an output voltage of the voltage regulator to generate a first current to an output terminal of the voltage regulator; and the current control circuit is configured to generate a second current to the output terminal of the voltage regulator according to an output current of the voltage regulator, wherein the output current is generated according to the first current and the second current. | 2022-02-10 |
20220045607 | SWITCHING CONVERTER WITH LOW QUIESCENT CURRENT AND CONTROL CIRCUIT THEREOF - A control circuit for controlling a switching converter having a low quiescent current. The control circuit has an error amplifying circuit, an on time generator, a first comparing circuit and a second comparing circuit. When the switching converter operates in a light load operation mode, the error amplifying circuit and the on time generator are deactivated. Meanwhile, the first comparing circuit compares a current sensing signal indicative of inductor current with a current reference signal to provide an off time control signal during an on state of a low side switch to determine an on moment of a high side switch. The second comparing circuit compares the voltage feedback signal with a voltage reference signal to provide an on time control signal to determine an off moment of the high side switch. | 2022-02-10 |
20220045608 | CONVERTER CIRCUIT, CORRESPONDING DEVICE AND METHOD - A converter circuit includes first and second electronic switches coupled at an intermediate node, with an inductor coupled between the intermediate node and an output node. Switching drive control circuitry causes the first and the second electronic switch to switch between a conductive state and a non-conductive state. The drive control circuitry includes a first feedback signal path to control switching of the first and the second electronic switch as a function of the difference between a feedback signal indicative of the signal at the output node and a reference value. A second feedback signal path includes a low-pass filter coupled to the output node and configured to provide a low-pass filtered feedback signal resulting from low-pass filtering of the output signal. The second feedback signal path compensates the feedback signal as a function of the difference between the low-pass filtered feedback signal and a respective reference value. | 2022-02-10 |
20220045609 | Charging Device - A charger device includes a Single-Input-Multiple-Output (SIMO) device and a controller. The SIMO device includes a first transistor connected to an input and a first end of an inductor, a second transistor connected to ground and the first end of the inductor, a third transistor connected to a second end of the inductor and a first output, and a fourth transistor connected to the second end of the inductor and a second output. The controller is connected to the SIMO device and is configured to cause the SIMO device to charge the inductor using a first power source coupled to the input during a first time period and discharge the inductor to charge a second power source coupled to the first output during a second time period. | 2022-02-10 |
20220045610 | Buck Boost Converter Cell for MMC - The present disclosure relates to a converter cell ( | 2022-02-10 |
20220045611 | Power Supply Circuit and Power Supply Control Method - The invention disclose a power supply circuit. The power supply circuit includes one or a plurality of first-stage voltage conversion circuits and one or a plurality of second-stage voltage conversion circuits; an input end of the first-stage voltage conversion circuit is coupled to a power supply; the first-stage voltage conversion circuit is configured to convert a first voltage received at the input end into a second voltage, where the second voltage is less than the first voltage; an input end of the second-stage voltage conversion circuit is coupled to an output end of the first-stage voltage conversion circuit; the second-stage voltage conversion circuit is configured to convert the second voltage into a third voltage, and supply the third voltage to a load. | 2022-02-10 |
20220045612 | VOLTAGE CONVERTER MODULE - Voltage converter inlay modules are provided for embedding within a package substrate, and are configured to supply power to a processor, or similar digital circuit, which is mounted to the package substrate. The package substrate is typically mounted to a circuit board, or similar. The circuit board provides high-voltage, low-current power to the voltage converter module which, in turn, provides low-voltage high-current power to the processor. The voltage converter inlay provides largely vertical current conduction from the circuit board to the processor, thereby reducing conduction losses incurred by lateral current conduction. The location of the voltage converter inlay between the circuit board and the microprocessor minimizes radiation of electromagnetic interference. The number of terminals allocated for providing power to the package substrate may be minimized due to the voltage converter inlay inputting fairly low levels of current. The high-current power required by the processor is constrained within the package substrate. | 2022-02-10 |
20220045613 | BUCK-BOOST CONVERTER CIRCUIT, CONTROL CIRCUIT AND ASSOCIATED CONTROL METHOD - A buck-boost converter working in a buck mode with buck switching cycles, a boost mode with boost switching cycles or a buck-boost mode with buck-boost switching cycles. Each of the buck-boost switching cycles has an AC phase, an AD phase and a BD Phase, and the duty cycle of the AC phase is determined by a reference signal, a feedback signal and an inductor current sense signal, the duty cycle of the AD phase is controlled and maintained at a preset duty threshold, the time period of the buck-boost switching cycle equals the time period of the buck switching cycle and the time period of the boost switching cycle. | 2022-02-10 |
20220045614 | DC-DC AUTO-CONVERTER MODULE - A DC-DC auto-converter module includes a positive source terminal, a negative source terminal, a positive load terminal, a negative load terminal, and a DC-DC converter. The negative source terminal cooperates with the positive source terminal to facilitate electrical connection of a DC power source thereto. The negative load terminal cooperates with the positive load terminal to facilitate connection of an electrical load thereto. The isolated DC-DC converter comprises an input circuit and an output circuit that is galvanically isolated from the input circuit. The DC-DC converter includes a positive input terminal, a negative input terminal, a positive output terminal, and a negative output terminal. At least one of the positive input terminal, the negative input terminal, the positive output terminal, and the negative output terminal is galvanically connected to at least one of the positive source terminal, the negative source terminal, the positive load terminal, and the negative load terminal. | 2022-02-10 |
20220045615 | USB INTERFACE - In an embodiment, an USB interface includes a transformer, a primary winding of the transformer and a first switch connected in series between a first node and a second node, a secondary winding of the transformer and a component connected in series between a third node and a fourth node, the fourth node configured to be set a first reference potential, a second switch connected between the third node and a first terminal, the first terminal configured to provide an output voltage of the USB interface; wherein the component is configured to avoid a current circulation in the secondary winding when the first switch is closed and a control circuit configured to compare a first voltage of an interconnection node between the secondary winding and the component to a first threshold and compare the first voltage to a second threshold when the first voltage is, in absolute values, above the first threshold. | 2022-02-10 |
20220045616 | SYSTEMS AND METHODS FOR VOLTAGE COMPENSATION BASED ON LOAD CONDITIONS IN POWER CONVERTERS - Systems and methods for voltage compensation based on load conditions in power converters. For example, a system controller for regulating a power converter includes a first controller terminal; a second controller terminal; and a compensation current generator. The compensation current generator is configured to receive an input signal through the first controller terminal. The input signal indicates a first current flowing through a primary winding of a power converter. The compensation current generator is configured to receive a demagnetization signal related to a demagnetization period of the power converter and associated with an auxiliary winding of the power converter. The compensation current generator is configured to generate a compensation current based at least in part on the input signal and the demagnetization signal. The compensation current generator is connected to a resistor. The resistor is configured to generate a compensation voltage based at least in part on the compensation current. | 2022-02-10 |