18th week of 2021 patent applcation highlights part 80 |
Patent application number | Title | Published |
20210135460 | COMPONENT THROTTLING POWER BACKUP DEVICE CHARGING SYSTEM - A component throttling power backup charging system includes a chassis defining a chassis housing and a chassis air inlet to the chassis housing, at least one component located in the chassis housing and adjacent the chassis air inlet, and a power backup device located opposite the at least one component from the chassis air inlet. The power backup device determines that a charging condition has been satisfied. The power backup device then determines that a temperature of air being provided to the power backup device exceeds a threshold temperature and, in response, transmits a throttling instruction that is configured to cause throttling of the at least one component. The power backup device subsequently determines that the temperature of the air being provided to the power backup device no longer exceeds the threshold temperature and, in response, performs charging operations. | 2021-05-06 |
20210135461 | DISTRIBUTED BATTERY POWER ESTIMATION WITH WEAKER CELL MONITORING - A distributed battery power system having a battery pack and a battery controller. The battery pack has: a plurality of cells configured to generate a plurality of cell voltages; a voltage current temperature module electrically connected to the plurality of cells; and a plurality of isolation switch sets electrically connected between the plurality of cells. The battery controller is in communication with the voltage current temperature module, and operable to: send a status request to the voltage current temperature module; receive the plurality of cell voltages from the voltage current temperature module in response to the status request; determine if the plurality of cells includes one or more problem cells in response to the plurality of cell voltages; and perform an action in response to determining that the one or more problem cells are present to prevent damage to the one or more problem cells. | 2021-05-06 |
20210135462 | SYSTEM FOR CHARGING A SERIES OF CONNECTED BATTERIES - An apparatus is provided for charging a first storage battery and a second storage battery electrically connected together in series includes a first Kelvin connection, a second Kelvin connection and a third Kelvin connection coupled to the storage batteries. At least two of the Kelvin connections are configured to charge at least one of the first and second batteries. A charging source configured to selectively couple a charge signal to a storage battery through the Kelvin connections. A switching device selectively couples the charging source and measurement circuitry to at least two of the first, second and third Kelvin connections. A microprocessor selectively controls the switching device, charges the batteries, and measures a parameter of the batteries as a function of the charging signal applied to the batteries. | 2021-05-06 |
20210135463 | METHOD AND APPARATUS FOR CONNECTING A PLURALITY OF BATTERY CELLS IN SERIES OR PARALLEL - Methods and systems for selectively connecting a plurality of battery cells in a dual-mode battery pack in series and parallel configurations and/or for individual cell monitoring. A dual-mode battery pack may generally include a housing; a first set of battery cells connected in series; and a second set of battery cells connected in series. The battery pack may also include series connection contacts selectively connectable to the first set of battery cells and to the second set of battery cells and, when engaged, connecting the first set of battery cells and the second set of battery cells in a series configuration; and parallel connection contacts selectively connectable to the first set of battery cells and the second set of battery cells and, when engaged, connecting the first set of battery cells and the second set of battery cells in a parallel configuration. | 2021-05-06 |
20210135464 | AC CHARGING CONTROL - The device ( | 2021-05-06 |
20210135465 | TRANSMITTER CIRCUIT, DATA TRANSMISSION METHOD, AND ELECTRONIC SYSTEM - A transmitter circuit includes a drive circuit including; a drive circuit disposed in a first electronic device and configured to generate a setting signal and transmit the setting signal via a channel from the first electronic device to a second electronic device connected to the channel, a current source array configured to provide a current signal to the drive circuit, and a current controller configured to control the current source array, wherein the current signal provided by the current source array increases over a period extending from a first edge of the setting signal to a subsequent second edge of the setting signal. | 2021-05-06 |
20210135466 | SMART JUMPER CABLES - Embodiments include smart jumper cables for jump-starting a vehicle. A jumper cable is configured with an electronic control module that monitors the connection at each end of the jumper cable, and only closes the circuit when a battery or vehicle electrical system is detected as properly connected to each end. In some embodiments, the electronic control module opens the circuit when a successful jump-start is detected. In some embodiments, the electronic control module further monitors the temperature of the jumper cable, and modulates the power transfer or opens the circuit if the temperature exceeds a predetermined level. | 2021-05-06 |
20210135467 | PREDICTIVE RECHARGEABLE BATTERY MANAGEMENT SYSTEM - Predictive rechargeable battery management is provided, which includes obtaining performance data on a battery cell of multiple rechargeable battery cells within a product, and comparing the performance data of the battery cell to statistical data on battery cell performance of a plurality of battery cells. Further, the managing includes determining, based on the comparing, that performance of the battery cell is trending away from the statistical data of battery cell performance of the plurality of battery cells. Further, the managing includes performing a battery-related action based on the performance of the battery cell trending away from that of the plurality of battery cells. | 2021-05-06 |
20210135468 | ROBOT, CHARGING PAD, AND ROBOT CHARGING SYSTEM INCLUDING SAME - A charging pad according to the exemplary embodiment of the present invention may include an input terminal connected to a high-priority charging pad; an output terminal connected to a low-priority charging pad; a charging unit configured to charge a robot positioned on the charging pad in accordance with a preset operating state; and a control unit configured to switch an operating state of the charging unit from an operation stop state to an operation standby state when a status signal for the high-priority charging pad is received from the input terminal. The control unit is configured to output the status signal for the charging pad through the output terminal when occupation of the charging unit by the robot is detected in the operation standby state. | 2021-05-06 |
20210135469 | CHARGING-DISCHARGING DEVICE, CHARGING METHOD, AND HANDHELD GIMBAL ASSEMBLY - A charging-discharging device includes a body, a first electrical connection assembly connected to the body and configured to be connected with a battery in a gimbal handle, a second electrical connection assembly connected to the body and configured to be connected with an external device. The second electrical connection assembly includes a plurality of interfaces. The charging-discharging device further includes a charging circuit and a discharging circuit each connected to one or more of the plurality of interfaces, and a control circuit configured to obtain connection states of the plurality of interfaces and, according to the connection states of the plurality of interfaces control the charging circuit to work to charge the gimbal handle or control the discharging circuit to work to charge the external device with the gimbal handle as a power supply. | 2021-05-06 |
20210135470 | E-CIGARETTE AND RE-CHARGING PACK - A rechargeable pack is provided for containing and recharging an e-cigarette. The pack includes a pack battery; a first connector which is electrically connectable to an external power source; a first recharging mechanism for re-charging the pack battery using the external power source when the first connector is electrically connected to the external power source; a second connector which is electrically connectable to the e-cigarette when the e-cigarette is received within the pack; and a second recharging mechanism for re-charging the e-cigarette using the pack battery when the e-cigarette is electrically connected to the second connector. The second recharging mechanism can be configured to provide protection against the pack battery providing excessive current through the second connector. | 2021-05-06 |
20210135471 | CAPACITOR PRE-CHARGING CIRCUITS - A capacitor pre-charge circuit configured to avoid inrush to a capacitor can include a plurality of components configured to ramp a pre-charge voltage over time up to a voltage maximum such that the a pre-charge voltage-over-time curve is not an asymptote. The plurality of components can be configured to linearly ramp voltage, for example, to the voltage maximum. In certain embodiments, the circuit can include an integrated voltage sense circuit. | 2021-05-06 |
20210135472 | POWER STORAGE DEVICE AND METHOD FOR CHARGING THE SAME - A decrease in the capacity of a power storage device is inhibited by adjusting or reducing imbalance in the amount of inserted and extracted carrier ions between positive and negative electrodes, which is caused by decomposition of an electrolyte solution of the negative electrode. Further, the capacity of the power storage device can be restored. Furthermore, impurities in the electrolyte solution can be decomposed with the use of the third electrode. A power storage device including positive and negative electrodes, an electrolyte, and a third electrode is provided. The third electrode has an adequate electrostatic capacitance. The third electrode can include a material with a large surface area. In addition, a method for charging the power storage device including the steps of performing charging by applying a current between the positive and negative electrodes, and performing additional applying a current between the third electrode and the negative electrode is provided. | 2021-05-06 |
20210135473 | BATTERY WITH A VOLTAGE REGULATION DEVICE - The invention relates to a battery ( | 2021-05-06 |
20210135474 | MOBILE TERMINAL AND CONTROL METHOD THEREOF - Provided is a mobile terminal (electronic device) which, in order to minimize aging of a battery included therein through repeated charging/discharging, comprises: the battery charged by a voltage applied thereto; a monitoring device for monitoring a charging condition of the battery, and a charging frequency of the battery; a battery charger for adjusting the voltage applied to the battery; and a controller for controlling the battery, the monitoring device, and the battery charger, wherein, when the battery is charged in a pre-configured charging condition, the controller controls the monitoring device to adjust the charging frequency in response to the pre-configured charging condition, and controls the battery charger to apply a voltage corresponding to the adjusted charging frequency to the battery. | 2021-05-06 |
20210135475 | BATTERY MANAGEMENT SYSTEM AND BATTERY CHARGING CONTROL METHOD - A battery management system and method to control charging of a battery is provided. The system determines whether a current capacity of the battery is greater than a predetermined threshold percentage of an original rated capacity of the battery, in response to initiation of a charging cycle of the battery being detected, controls the battery to be charged with a first voltage, in response to the current capacity of the battery being determined to be greater than the predetermined threshold percentage of the original rated capacity of the battery, and controls the battery to be charged with a second voltage, in response to the current capacity of the battery being determined to be less than or equal to the predetermined threshold percentage of the original rated capacity of the battery. | 2021-05-06 |
20210135476 | INFORMATION PROCESSING APPARATUS, CONTROL METHOD OF INFORMATION PROCESSING APPARATUS, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - An information processing apparatus includes a power processor, an interface, a first detector that detects at least one of a voltage value and a current value on an electric power line which connects the power processor and the interface, a second detector that detects at least one of a voltage value and a current value on the electric power line, a switch that switches a supply of electric power supplied from the interface to an outside, and a controller. The controller controls the switch to restrict the electric power supplied from the interface to an outside in a case where at least one of a detection value of the first detector and a detection value of the second detector is equal to or greater than a threshold value. | 2021-05-06 |
20210135477 | INFORMATION PROCESSING APPARATUS, CONTROL METHOD OF INFORMATION PROCESSING APPARATUS, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - An information processing apparatus includes a power processor, an interface, a detector that detects at least one of a voltage value and a current value on an electric power line which connects the power processor and the interface, and a controller. The controller notifies a swap request for swapping electric power roles with an external device to the external device via the interface in a case where a detection value of the detector indicates an abnormal value while electric power is supplied to the external device via the interface. | 2021-05-06 |
20210135478 | WORKLOAD DEPENDENT LOAD-SHARING MECHANISM IN MULTI-BATTERY SYSTEM, AND ADAPTIVE CHARGING AND DISCHARGING FOR A HYBRID BATTERY - A workload dependent load-sharing mechanism in a multi-battery system. The mechanism is an energy management system that operates in three modes—energy saving mode, balancer mode, and turbo mode. The energy saving mode is a normal mode where the multiple batteries provide power to their own set of loads with least resistive dissipation. In balancing mode, the batteries are connected through switches operating in active mode so that the current shared is inversely proportion to the corresponding battery state-of-charge. In turbo mode, both batteries are connected in parallel through switches (e.g., on-switches) to provide maximum power to a processor or load. A controller optimizes the sequence and charging rate for a hybrid battery to maximize both the charging current and charging speed of the battery, while enabling longer battery life. The hybrid battery comprises a fast charging battery and a high-energy density battery. | 2021-05-06 |
20210135479 | METHOD AND DEVICE FOR CHARGING BATTERY - A method for charging a battery includes: determining a first charging section, in which a current charging rate of the battery is located, from among a plurality of charging sections predetermined based on a functional relation between a state of charge of the battery and an open circuit voltage of an anode of the battery; and charging the battery for the first charging section with a first charging rate corresponding to the first charging section. | 2021-05-06 |
20210135480 | USER BEHAVIOR DRIVEN CHARGE LEVELS - In some examples, an electronic device can include a battery, a power adapter, a processing resource, and a memory resource storing machine-readable instructions to cause the processing resource to determine monitored user behavior data exceeds a predetermined threshold, and responsive to the predetermined threshold being exceeded, provide a notification including a recommended threshold charge level, where the recommended threshold charge level is a percentage of an overall possible charge percentage of the battery. | 2021-05-06 |
20210135481 | IN-VEHICLE AUXILIARY POWER SOURCE CONTROL DEVICE AND IN-VEHICLE AUXILIARY POWER SOURCE DEVICE - A configuration can be more easily realized in which the temperature of an auxiliary power source can be increased even in a low temperature environment. In the in-vehicle auxiliary power source control device, a control unit performs a charging operation of switching a first switch on and switching a second switch off, and a discharging operation of switching the first switch off and switching the second switch on. Also, the temperature of an auxiliary power source is raised by heat generated by a resistor unit due to the charging operation and the discharging operation performed by the control unit. | 2021-05-06 |
20210135482 | MECHANICAL RENEWABLE GREEN ENERGY PRODUCTION - A renewable energy generation system includes a drive motor, a flywheel in mechanical communication with the drive motor, a generator in mechanical communication with the flywheel, a charge controller in electrical communication with the generator, a plurality of charge controller switches in electrical communication with the charge controller, a plurality of batteries in electrical communication with a respective charge controller switch, and a power management module in electrical communication with the plurality of charge controller switches. The drive motor effectuates rotation of the flywheel to generate stored rotational energy which is transferred to the generator as a load is placed upon the generator to maintain a constant speed of the drive motor. The power management module selectively opens or closes a charge controller switch to permit or inhibit the flow of electrical energy to a respective battery to reduce the electrical load placed upon the generator and drive motor. | 2021-05-06 |
20210135483 | CONTROL DEVICE FOR VEHICLE - A control device for a vehicle is provided with a catalyst warmup control part supplying electric power to a conductive base to warm up a catalyst device if the temperature of the conductive base is less than a predetermined temperature and the state of charge of the battery is less than a second state of charge larger than a first state of charge when the state of charge of the battery is equal to or greater than the predetermined first state of charge and a driving mode of the vehicle is set to an EV mode in which at least the output of the rotary electric machine is controlled to make the vehicle run. The catalyst warmup control part sets the second state of charge so that the second state of charge becomes larger in the case where the resistance value of the conductive base is large compared to when it is small. | 2021-05-06 |
20210135484 | BATTERY ENERGY STORAGE SYSTEM - A battery energy storage system is provided with: a charging/discharging control device capable of controlling charging/discharging of each of a plurality of electricity storage units in accordance with the supply and demand state of a power system; and a management device for adjusting the progression of deterioration of each of the electricity storage units by differentiating the charging/discharging amount of each of the electricity storage units and managing by differentiating the electricity storage units having a low degree of progression of deterioration from the electricity storage units having a high degree of progression deterioration. | 2021-05-06 |
20210135485 | Network Power Failure Alert System - A network power failure alert system for recognizing network outages and locating power failures includes a plurality of uninterruptable power sources, a plurality of location networks, and a data center. Each uninterruptable power source is configured to connect to an alternating current power source. Each location network comprises a site router and a plurality of switches. A power supply of the site router is in operational communication with the uninterruptable power source. Each switch is in operational communication with the site router and the uninterruptable power source. The data center comprises a primary core router in operational communication with the site router of each location network, the uninterruptable power source, and a plurality of network stations. | 2021-05-06 |
20210135486 | DC POWER SUPPLY SYSTEM AND METHOD - The present disclosure provides a DC power supply system and its control method. The system includes: a first power supply circuit and a second power supply circuit, at least one of the first power supply circuit and the second power supply circuit including a phase shifting transformer, wherein the first power supply circuit includes a number N of first AC/DC conversion circuits, and the second power supply circuit includes a number N of second AC/DC conversion circuits, where N is an integer greater than or equal to 2; an output side of each of the N first AC/DC conversion circuits is electrically connected in parallel with an output side of a corresponding second AC/DC conversion circuit of the N second AC/DC conversion circuits through a DC busbar to form N sets of redundant backup circuits. | 2021-05-06 |
20210135487 | DUAL OUTPUT UNINTERRUPTIBLE POWER SUPPLY - An uninterruptible power supply (UPS) includes a rectifier configured to receive alternating current (AC) power. The UPS further includes a first output connected to the rectifier through an inverter. The first output is configured to output an AC power supply. The UPS also includes a second output connected to the rectifier through a battery backup and a stepdown converter. The second output is configured to output a direct current (DC) power supply in response to a detected power anomaly condition, thereby providing extra redundancy that allows for increased power availability and uptime. | 2021-05-06 |
20210135488 | UNINTERRUPTIBLE POWER SUPPLY DEVICE - An uninterruptible power supply device includes: a converter that converts AC power supplied from an AC power supply into DC power and outputs the DC power to a first power supply node; a first bidirectional chopper that outputs DC power in a lead storage device to the first power supply node when the AC power supply has a power failure; a diode connected between the first power supply node and a second power supply node; a second bidirectional chopper that supplies and receives DC power between the second power supply node and a lithium ion battery; and a controller that controls the second bidirectional chopper to charge the lithium ion battery during regenerative operation of a load and to discharge the lithium ion battery during power running operation of the load. | 2021-05-06 |
20210135489 | APPARATUSES, METHODS AND SYSTEMS FOR INTELLIGENT AND FLEXIBLE TRANSFER SWITCHES - The present inventive concepts comprise a connected, intelligent transfer switch system that permits remote metering, monitoring and control of energy sources connected to a device both by hardwired and wireless connection, and the method for operating this system is disclosed. The inventive concepts represent a significant improvement upon existing transfer switch systems by incorporating advanced monitoring and control capabilities of all energy resources connected to a building, such as fossil-fuel powered generators, battery storage systems, solar photovoltaic arrays, wind turbines, utility grid connections, controllable loads, or other technologies which generate, store or consume energy. The inventive concepts further provide means for flexible and intelligent operation of these resources through a dedicated network communication connection which enables advanced operational decision-making to determine optimal switching actions and real-time interaction through user-facing digital interfaces. | 2021-05-06 |
20210135490 | IMPROVED POWER MANAGEMENT CIRCUITRY FOR ENERGY-HARVESTING DEVICES - Detector circuitry ( | 2021-05-06 |
20210135491 | WEARABLE METABOLIC ELECTRICAL CHARGING APPARATUS - An apparatus for providing metabolically-generated electrical power to an electronic device such as, for example, a mobile phone, tablet or other device comprising a thermoelectric generator in electrical communication with a generating induction coil for wirelessly inductively providing power to the electronic device. In embodiments, the apparatus may be housed within an enclosure adapted to receive the electronic device. In an embodiment, the battery may be a mobile phone case. In an embodiment, the apparatus may further comprise a rotary lens selection feature for presenting optical lenses of varying powers to a camera of a mobile phone or tablet. In embodiments, the thermo-electronic device may be a Peltier module. A cell phone case of the invention may be adapted to receive a cell phone and may comprise a Peltier module and a generating induction coil that either powers the cell phone directly, or charges the cell phone's battery. | 2021-05-06 |
20210135492 | ELECTRONIC DEVICE COMPRISING WIRELESS CHARGING MODULE AND FLEXIBLE DISPLAY - An electronic device of an embodiment of the present invention may comprise: a first structure comprising a first plate including a first surface and a second surface facing away from the first surface; a second structure comprising a second plate facing the second surface of the first plate, a first sidewall perpendicular to the second plate, a second sidewall perpendicular to the first sidewall and the second plate, and a third sidewall perpendicular to the first sidewall and the second plate and parallel to the second sidewall, wherein the first sidewall includes a conductive portion, and the second plate, the first sidewall, the second sidewall, and the third sidewall together form a trough with one side open to receive at least a portion of the first structure, and the first structure is movable between an open state and a closed state with respect to the second structure in a first direction parallel to the second plate and the second sidewall such that the first structure is located at a first distance from the first sidewall in the closed state and is located at a second distance greater than the first distance from the first sidewall in the open state; a flexible touch screen display layer comprising: a planar portion extending across at least a portion of the first surface and mounted to the first surface; and a bendable portion extending, during the closed state, from the planar portion into a space between the first sidewall and the first structure, wherein when the first structure is moved from the closed state to the open state, at least a portion of the bendable portion forms a substantially planar surface between the planar portion and the first sidewall as viewed from the top of the first plate; a conductive pattern mounted on the second plate between the second surface and the second plate; a first conductive path extending between the conductive portion of the first sidewall and the conductive pattern; a printed circuit board mounted on the first structure; a wireless charging circuit mounted on the printed circuit board; a wireless communication circuit mounted on the printed circuit board; and a flexible conductive path connected between the printed circuit board and the conductive pattern, wherein the flexible conductive path includes a second conductive path electrically connected between the wireless charging circuit and the conductive pattern, and a third conductive path electrically connected between the communication circuit and the first conductive path. | 2021-05-06 |
20210135493 | Wireless Power Transmission For Near And Far Field Applications - The disclosed wireless transmitter estimates a client location in space and transmits power in the form of electromagnetic (EM) waves to that location. In response to receiving the power, a client sends a power request signal. In some implementations, the power request signal includes a request that the wireless transmitter transmit more power to the client. In response to the power request signal, the wireless transmitter can modify the power transmitted to the client to increase/decrease the amount of power the client is receiving. For example, the wireless transmitter can modify the emitted EM waves to increase coherent addition or decrease coherent addition at the location of the client to increase the amount of power the client receives. In some implementations, the wireless transmitter modifies the phase distribution of EM waves to increase the amount of power a client receives. | 2021-05-06 |
20210135494 | ELECTRONIC DEVICE, WIRELESS CHARGING DEVICE, AND WIRELESS CHARGING METHOD - An electronic device, a wireless charging device and a wireless charging method, which belong to the technical field of charging. The electronic device comprises: a receiving coil, a receiving circuit, a first switch module and a first control module, wherein the first control module is used for controlling, according to a related parameter for the magnetic coupling strength between the receiving coil and a transmitting coil of a wireless charging device, the turning on and off of at least two first switches in the first switch module, so as to adjust the number of turns of subcoils in the receiving coil that effectively work. | 2021-05-06 |
20210135495 | NON-CONTACT POWER SUPPLY DEVICE - A power transmission device | 2021-05-06 |
20210135496 | POWER TRANSMISSION DEVICE AND POWER TRANSMISSION/RECEPTION SYSTEM - According to one embodiment, a power transmission device includes a wheel guide for a cart. The wheel guide extends in a first direction. A plurality of power transmission coils is arranged adjacently to one another other along the first direction at a spacing interval in the first direction corresponding to spacing between power reception coils on a plurality of carts when the carts are nested in the wheel guide along the first direction. One or more foreign matter storage groove is provided adjacent to each power transmission coil. | 2021-05-06 |
20210135497 | RESONANT POWER TRANSFER SYSTEMS HAVING EFFICIENCY OPTIMIZATION BASED ON RECEIVER IMPEDANCE - The present disclosure provides systems and methods for controlling wireless power transfer systems. A wireless power transfer system includes a transmitter driven by a power source and a transmit controller, wherein the transmitter is configured to control delivery of wireless power, and a receiver inductively coupled to the transmitter, the receiver configured to receive the wireless power from the transmitter and deliver the received wireless power to a load. The receiver includes receiver electronics configured to determine a Thevenin equivalent impedance of the wireless power transfer system, determine a Thevenin equivalent source voltage of the wireless power transfer system, and control, based on the determined Thevenin equivalent impedance and the determined Thevenin equivalent source voltage, an ideal source voltage of the receiver to vary the amount of the wireless power transferred from the transmitter to the receiver. | 2021-05-06 |
20210135498 | Wireless Charging Control Method, and Wireless Charging Transmitter and System - A wireless charging control method for an electric vehicle or a wireless charging transmitter includes an inner-loop control circuit, a boost circuit, an inverter circuit, and a transmitting coil, where the inner-loop control circuit is coupled to both the boost circuit and the inverter circuit, and an input end and an output end of the inverter circuit are respectively coupled to the boost circuit and the transmitting coil, and the inner-loop control circuit is configured to obtain a first current reference signal and a sampled current signal of the transmitting coil, compare the first current reference signal with the sampled current signal to obtain an absolute value of a difference between the first current reference signal and the sampled current signal, and adjust a phase shift angle of the inverter circuit or a duty cycle of the boost circuit when the absolute value is greater than a preset deviation. | 2021-05-06 |
20210135499 | INDUCTIVE POWER TRANSMITTER - An inductive power transmitter comprising: a converter configured to generate at least two object detection signals at substantially different frequencies, at least one transmitting coil configured to generate a magnetic field based on the object detection signals, and a controller configured to determine or measure circuit parameter(s) in relation to the coil to determine the inductance of the coil at each of the frequencies, and determine whether and/or what kind of object is present depending on a change in inductance between each of the frequencies. | 2021-05-06 |
20210135500 | SIGNAL MATCHING APPARATUS IN A SYSTEM FOR INDUCTIVE POWER TRANSMISSION - A signal matching apparatus for an evaluation circuit for evaluating an electromagnetic signal for operation in an inductive energy transmission system, the apparatus including a signal transmission device, wherein the signal transmission device includes an antenna connection for connecting a receiving antenna, an evaluation connection for connecting the evaluation circuit for the electromagnetic signal, wherein the antenna connection is configured to receive the electromagnetic signal, wherein the signal transmission device is configured to leave the phase of the electromagnetic signal substantially unchanged and wherein the signal transmission device is configured to match the amplitude of the electromagnetic signal to a characteristic prescribable by the evaluation circuit, wherein the evaluation connection is configured to provide the electromagnetic signal to the evaluation circuit. | 2021-05-06 |
20210135501 | TRANSMITTER AND METHOD FOR WIRELESS CHARGING, AND TERMINAL - Provided are a transmitter and method for wireless charging, and a terminal. The transmitter for wireless charging can include an input circuit, configured to receive a first alternating-current electric signal of a first frequency, a first conversion circuit, configured to convert the first alternating-current electric signal into a second alternating-current electric signal of a second frequency, and at least one first radio frequency antenna, connected with the first conversion circuit and configured to convert the second alternating-current electric signal into a radio frequency signal for wireless charging and transmit the radio frequency signal. Therefore, long-distance wireless charging may be implemented based on a characteristic that the radio frequency transmitted by the transmitter for wireless charging may be transmitted at a long distance and may penetrate a nonmetallic object. | 2021-05-06 |
20210135502 | WIRELESS ENERGY EMISSION DEVICE AND ELECTRONIC EQUIPMENT - A wireless energy emission device includes: a receiving antenna array, a signal processing module, and an emitting antenna array; wherein the receiving antenna array includes at least two receiving antennas for receiving a positioning signal emitted by a target device to be powered; the signal processing module is configured to determine an emission parameter according to a phase difference between positioning signals received by any two of the receiving antennas and position information of the emitting antenna array; and the emitting antenna array is configured to emit an energy supply signal to the target device to be powered according to the emission parameter. | 2021-05-06 |
20210135503 | NON-CONTACT POWER SUPPLY SYSTEM, POWER RECEPTION APPARATUS FOR NON-CONTACT POWER SUPPLY, AND SIGNAL TRANSMISSION METHOD REGARDING START OF NON-CONTACT POWER SUPPLY BY POWER RECEPTION APPARATUS FOR NON-CONTACT POWER SUPPLY - Included are: a power reception apparatus, including: a reception antenna capable of receiving power from any of multiple transmission antennas in a non-contact manner; a power supply unit; and an activation signal transmitting unit for transmitting an activation signal to a power transmission device when supplied with power from the power supply unit and an operation instruction is received; and the power transmission device including: an activation signal receiving unit for receiving the activation signal; a power transmission unit for starting power supply to the multiple transmission antennas when the activation signal is received; and an antenna determination unit for determining a power transmission target antenna, in which non-contact power supply to the reception antenna of the power reception apparatus is performed with the power transmission unit supplying power to the power transmission target antenna. | 2021-05-06 |
20210135504 | POWER TRANSMISSION SYSTEM - A power transmission system includes a base unit that includes a guide rail extending along a first direction for guiding a cart, and a plurality of first recesses separated from each other at first predetermined intervals along the guide rail. The power transmission system further includes a plurality of power transmitters attached to the respective first recesses. Each of the first recesses is positioned such that the corresponding power transmitter faces a power receiver of a cart guided along the guide rail. | 2021-05-06 |
20210135505 | WIRELESS CHARGING TRANSMITTER, METHOD FOR WIRELESS CHARGING AND STORAGE MEDIUM - A wireless charging transmitter, a method for wireless charging, and a storage medium. The method can be applied to a transmitting component for transmitting a wireless charging signal to a terminal to be charged to wirelessly charge the terminal. A detection component can be configured to detect whether there is a living body that has entered a preset range associated with the wireless charging transmitter and generate a detection signal. An adjustment component can be connected to the transmitting component and configured to adjust a first transmitting power of the transmitting component to a second transmitting power when the detection signal indicates that there is a living body that has entered the preset range, the second transmitting power is smaller than the first transmitting power. | 2021-05-06 |
20210135506 | DETECTING FOREIGN OBJECTS IN WIRELESS POWER TRANSFER SYSTEMS - Foreign object detection for a wireless power transmitter can be performed using a reference Q-factor and reference frequency for a wireless power receiver. A figure of merit may be calculated using the reference Q-factor and reference frequency. A Q-factor and resonant frequency may be measured, and a measurement figure of merit can be calculated. The figures of merit can be compared to determine where a foreign object is present. | 2021-05-06 |
20210135507 | Wireless Charging Interference Mitigation - An electronic device such as a portable electronic device has wireless power receiving circuitry. A vehicle has a vehicle remote keyless system that transmits beacons. A key receives the beacons and responds with key codes to unlock doors and enable a vehicle ignition in the vehicle. In the presence of wireless power transfer operations there is a risk that wireless power signals will interfere with the reception of the beacons by the key. To ensure that beacons are satisfactorily received, conditions in which there is a risk of interference are detected and corresponding interference mitigation operations are performed. | 2021-05-06 |
20210135508 | INDUCTIVE POWER TRANSFER DEVICE - One example discloses an inductive power transmit device, including: a power controller configured to be coupled to a set of primary inductive coils; wherein the power controller is configured to supply power to a first subset of the primary coils; wherein the first subset of primary coils are configured to inductively transfer power to a set of secondary inductive coils; wherein the power controller is configured to supply the power to a second subset of the primary coils in response to a threshold movement of the secondary inductive coils with respect to the primary inductive coils; and wherein the power controller is configured to determine the movement based on the power supplied to the first subset of primary coils, and a ratio of power supplied to one primary coil in the first subset of primary coils as compared to power supplied to all coils in the first subset of coils. | 2021-05-06 |
20210135509 | METHOD AND DEVICE FOR WIRELESS CHARGING, WIRELESS CHARGING TRANSMITTER AND STORAGE MEDIUM - A method for wireless charging includes: position-orientation information of a terminal for wireless charging based on a radio frequency signal transmitted by the wireless charging transmitter is acquired; whether the terminal is in a target charging state is determined based on the position-orientation information; and responsive to that it is determined that the terminal is not in the target charging state, first prompting information is output, and the first prompting information is used to prompt an adjustment of the position-orientation information of the terminal. | 2021-05-06 |
20210135510 | WIRELESS ENERGY TRANSMITTING APPARATUS, WIRELESS ENERGY RECEIVING APPARATUS, WIRELESS ENERGY SUPPLY METHOD AND SYSTEM - A wireless energy transmitting apparatus includes: a direction-finding and location device configured to determine a position of an energy receiving apparatus based on beacon information of the energy receiving apparatus; an energy generation device configured to generate energy, convert the energy into high-frequency electromagnetic waves having a frequency higher than a predetermined frequency threshold, and transmit the high-frequency electromagnetic waves to the energy receiving apparatus; and a processor configured to control the energy generation device to transmit the high-frequency electromagnetic waves to the energy receiving apparatus based on the position of the energy receiving apparatus. The position of the energy receiving end is determined based on the direction-finding and location device, and the energy generation device is controlled to convert the energy into high-frequency electromagnetic waves having a frequency higher than a predetermined frequency and transmit the same to the energy receiving end. | 2021-05-06 |
20210135511 | NON-CONTACT IN-WHEEL MOTOR WITH STEERING - Systems and methods are provided for a drive mechanism of a vehicle, that may include: a rotor comprising a ring of a plurality of magnets located about a circumference of a rim of a wheel of the vehicle, the plurality of magnets generating a first magnetic field; a stator comprising a plurality of coils, the stator mounted to a body of the vehicle, and located outside a wheel of the vehicle and proximate to an outer edge of the ring of the plurality of magnets; and wherein the plurality of coils of the stator, when energized by an AC waveform, generate a second magnetic field stator, and further wherein an interaction between the first and second magnetic fields creates an attractive force causing tractive motion of the wheel about an axis of rotation of the wheel. | 2021-05-06 |
20210135512 | ROTARY ELECTRIC MACHINE ARMATURE AND METHOD OF MANUFACTURING THE SAME - A rotary electric machine armature that includes a cylindrical armature core and a coil wound around the armature core, wherein: the coil is formed by joining a plurality of segment conductors to each other; the segment conductors have respective conductor side portions that extend along the axial direction; the conductor side portions are provided with respective joint portions; the joint portions have respective facing surfaces; the joint portions of a pair of the segment conductors are joined to each other with the facing surfaces of the joint portions facing each other; and a facing surface of the facing surfaces is formed so as to have a portion that faces a radial direction and so as not to have portions that overlap each other as viewed in the radial direction over the entire facing surface. | 2021-05-06 |
20210135513 | PERMANENT-MAGNET SYNCHRONOUS MOTOR AND ELECTRIC POWER STEERING DEVICE - A permanent-magnet synchronous motor and an electric power steering device are driven by a first system including a first armature winding and a first control apparatus and by a second system including a second armature winding and a second control apparatus and are configured in such a way that if one system fails, driving by the one system is stopped but the driving is continued by the other system. | 2021-05-06 |
20210135514 | ATTACHING A STATOR TO AN ENDBELL OF AN AXIAL FLUX ROTATING ELECTRICAL MACHINE - Embodiments involve rotors for axial flux induction rotating electric machines that use a soft magnetic composite for the rotor core. A first embodiment is directed to a rotor for a rotating electrical machine that transmits magnetic flux parallel to a shaft of the rotor. The rotor includes a rotor winding and a plurality of cores. The rotor winding consists of a solid piece of conductive material that comprises a plurality of cavities. Each core is placed in a respective cavity and comprises a highly resistive isotropic ferromagnetic powder. | 2021-05-06 |
20210135515 | FAN IMPELLER TO COOL AN AXIAL FLUX ROTATING MACHINE, AND APPLICATIONS THEREOF - Embodiments involve rotors for axial flux induction rotating electric machines that use a soft magnetic composite for the rotor core. A first embodiment is directed to a rotor for a rotating electrical machine that transmits magnetic flux parallel to a shaft of the rotor. The rotor includes a rotor winding and a plurality of cores. The rotor winding consists of a solid piece of conductive material that comprises a plurality of cavities. Each core is placed in a respective cavity and comprises a highly resistive isotropic ferromagnetic powder. | 2021-05-06 |
20210135516 | ELECTRICAL MACHINES - A stator assembly for an electrical machine comprises an annular core extending around an axis (X) and comprising a plurality of axially extending slots. A plurality of electrical windings are arranged in the slots and have end portions arranged at the axial ends of the core. A cooling jacket at least partially extends around a radially outer surface of the core. At least one annular cooling plate is mounted to an axial end of the cooling jacket and arranged in thermal contact with the end portions of the electrical windings. | 2021-05-06 |
20210135517 | ROTOR FOR AN ELECTRIC MACHINE, ASSOCIATED PRODUCTION METHOD, AND ELECTRIC MACHINE FOR DRIVING A VEHICLE - A rotor for an electric machine, includes a laminated core which has magnet pockets extending in an axial direction, a plurality of first permanent magnet arrangements and a plurality of second permanent magnet arrangements. Each magnet arrangement includes a plurality of magnet elements arranged in the axial direction. The magnet arrangements are arranged one in each magnet pocket. The magnet elements of second magnet arrangements extend in each case along an axial transition portion in which opposite free ends of a pair of adjacent magnet elements of the first magnet arrangements are arranged. | 2021-05-06 |
20210135518 | ROTOR AND MOTOR - A rotor includes a first rotating body and a second rotating body. The first rotating body includes a first rotor core and first magnets arranged in a circumferential direction. An outer side surface of the first rotating body includes first outer side surfaces curved in a circular arc shape and arranged in the circumferential direction. The first outer side surface is an outer side surface of the first magnet or an outer side surface of the first rotor core. The second rotating body is positioned on a side lower than the first rotating body in an axial direction and includes a second rotor core and second magnets arranged in the circumferential direction. An outer side surface of the second rotating body includes second outer side surfaces curved in a circular arc shape and arranged in the circumferential direction. | 2021-05-06 |
20210135519 | ELECTRIC MOTOR - An electric motor, e.g., for a motor vehicle, includes an internal rotor arranged rotatably supported about a rotation axis relative to an external stator. The internal rotor includes a pot-shaped receiving sleeve arranged around a rotor shaft and an armature unit received in the rotor receiving sleeve. The armature unit includes a multiple-layered metal sheet assembly and a plurality of permanent magnets. The plurality of permanent magnets are arranged with spacing from each other in a peripheral direction at a radial outer side of the metal sheet assembly. The sheet metal assembly includes at least one retention device disposed integrally thereon in an intermediate space between adjacent permanent magnets, structured and arranged to reduce slippage of the permanent magnets in the peripheral direction. | 2021-05-06 |
20210135520 | CONSEQUENT-POLE TYPE ROTOR, ELECTRIC MOTOR, COMPRESSOR, BLOWER, AND AIR CONDITIONER - A rotor includes a rotor core including a magnet insertion hole and an opening and a permanent magnet inserted in the magnet insertion hole and forming a first magnetic pole. The rotor satisfies L | 2021-05-06 |
20210135521 | ROTARY ELECTRIC MACHINE - According to one embodiment, a first permanent magnet and a second permanent magnet are disposed in each magnetic pole of a rotor core. When angular coordinates of intersections of a flux line in a d-axial direction passing an outer end A | 2021-05-06 |
20210135522 | MOTOR ROTOR AND PERMANENT MAGNET MOTOR - The present disclosure discloses a motor rotor and a permanent magnet motor. The motor rotor includes a rotor core and a plurality of magnetic poles in the rotor core. The magnetic pole includes a first, a second, and a third permanent magnets, and the size relationship of the first, the second and the third permanent magnets in the cross section of the rotor core meets m/2>H1*Hcj1*L1/[(H2*Hcj2*L2+½H3*Hcj2*L3)]>m/10, wherein m is a multiple of the motor flux adjustment range; L1 is the length of the first permanent magnet; H1 is the width of the first permanent magnet; Hcj1 is the intrinsic coercivity of the first permanent magnet; L2, H2 and Hcj2 are the length, the width and the intrinsic coercivity of the second permanent magnet, respectively; L3 H3, Hcj3 are the length, the width, and the intrinsic coercivity of the third permanent magnet, respectively. | 2021-05-06 |
20210135523 | ROTOR AND MOTOR INCLUDING THE ROTOR - A motor includes a rotor including a rotating shaft, a nonmagnetic rotary frame, yokes arranged separately in the nonmagnetic rotary frame, and magnets arranged on surfaces of the yokes at least on one side of the yokes. To hold the yokes and the magnets, the nonmagnetic rotary frame includes a first annular rib that extends along a circumferential direction on a radially outer side of the rotating shaft, radially extending ribs that extend from a radially outer side of the first annular rib along radial directions, and a second annular rib joined to the radially extending ribs and concentric with the first annular rib. | 2021-05-06 |
20210135524 | ROTOR HAVING AN INJECTED CAGE - A rotor for a rotary electric machine, including: a stack of magnetic laminations each having openings, the superposition of these openings within the stack forming slots, at least some of the openings having, on at least part of their periphery, friction reliefs, electrically conducting bars made of a first material, received in at least part of the slots and coming to bear via at least one principal face against said reliefs. | 2021-05-06 |
20210135525 | OPEN STATOR FOR AN AXIAL FLUX ROTATING ELECTRICAL MACHINE - Embodiments involve rotors for axial flux induction rotating electric machines that use a soft magnetic composite for the rotor core. A first embodiment is directed to a rotor for a rotating electrical machine that transmits magnetic flux parallel to a shaft of the rotor. The rotor includes a rotor winding and a plurality of cores. The rotor winding consists of a solid piece of conductive material that comprises a plurality of cavities. Each core is placed in a respective cavity and comprises a highly resistive isotropic ferromagnetic powder. | 2021-05-06 |
20210135526 | AXIAL FIELD ROTARY ENERGY DEVICE HAVING PCB STATOR AND VARIABLE FREQUENCY DRIVE - An axial field rotary energy device or system includes an axis, a PCB stator and rotors having respective permanent magnets. The rotors rotate about the axis relative to the PCB stator. A variable frequency drive (VFD) having VFD components are coupled to the axial field rotary energy device. An enclosure contains the axial field rotary energy device and the VFD, such that the axial field rotary device and the VFD are integrated together within the enclosure. In addition, a cooling system is integrated with the enclosure to cool the axial field rotary energy device and the VFD. | 2021-05-06 |
20210135527 | A LEAD FRAME FOR AN ELECTRIC MOTOR OR GENERATOR - A lead frame for electrically coupling a plurality of inverter legs of an inverter to a set of coil windings of an electric motor or generator, the lead frame comprising a printed circuit board having a plurality of circuit board layers. Each circuit board layer includes an insulating substrate having an electrically conductive layer formed on the insulating substrate. First, second and third circuit board layers each include a respective electrically conductive layer arranged to be coupled to a corresponding coil winding of the first set of coil windings and a respective inverter leg. A fourth circuit board layer includes a respective electrically conductive layer arranged to be coupled to all of the third coil windings to form a neutral point therebetween. | 2021-05-06 |
20210135528 | STATOR AND MOTOR - A stator includes multiple coils. The coils include multiple outer coils arranged on the base side of teeth and multiple inner coils arranged on the tip side of the teeth. The outer coils and the inner coils are alternately arranged along the circumferential direction of a stator core. Each coil winding of the outer coils is formed in a non-fixed state, and each coil winding of inner coils is formed in a fixed state. | 2021-05-06 |
20210135529 | INSULATING MEMBER, STATOR OF ROTARY ELECTRIC MACHINE, AND ROTARY ELECTRIC MACHINE - An insulating paper ( | 2021-05-06 |
20210135530 | Axial Gap Rotary Electric Machine - A conventional axial gap rotary electric machine does not consider winding movement caused by resin molding in the vicinity of a lead-out part provided to a housing. In order to solve the problem, the axial gap rotary electric machine according to the present invention includes a stator which is formed by circularly arranging a plurality of core units having coils about a rotation shaft and which has a connecting wire that fastens, for each layer, coil rising wires from the plurality of core units, and the axial gap rotary electric machine has a configuration in which: the housing has a lead-out part through which the connecting wire is taken out to the outside of the housing; and the stator is arranged such that the region where the coil rising wire from the core unit is fastened with the connecting wire is located so as to avoid the region opposed to the lead-out part, the stator being integrally molded. | 2021-05-06 |
20210135531 | BUS BAR UNIT AND MOTOR INCLUDING THE SAME - A bus bar unit includes an inner bus bar and an outer bus bar extending in a circumferential direction about a central axis of a motor and connected to a coil of a stator and held by a bus bar holder which is a resin molded structure and the outer bus bar is disposed outward in a radial direction with respect to the inner bus bar. The bus bar holder includes a first inner support wall to support an outer circumferential surface of the inner bus bar, a first outer support wall to support an inner circumferential surface of the outer bus bar, openings open in parallel or substantially in parallel in at least one of the first inner support wall and the first outer support wall in the circumferential direction, and through which a lead wire of the coil passes, and a connection rib extending in the radial direction between the openings adjacent to each other in the circumferential direction to connect the first inner support wall to the first outer support wall. | 2021-05-06 |
20210135532 | MOTOR SEALING STRUCTURE AND MOTOR - Provided are a motor sealing structure and a motor. The motor sealing structure comprises: a rotary shaft, a bearing, which is sleeved on the rotating shaft. A shaft shoulder structure is arranged on an outer peripheral wall of the rotating shaft at a position corresponding to the bearing along an axial direction of the rotating shaft, so as to form a cavity between a portion of the bearing and the shaft shoulder structure, and a fan blade structure, which is sleeved at one end of the rotating shaft and extends in the axial direction of the rotating shaft to the position of the bearing, and is inserted into and held in the cavity. | 2021-05-06 |
20210135533 | ELECTRIC MACHINE WITH FORCED CONVECTION-BASED ROTOR COOLING - A rotary electric machine for use with coolant includes a stator and rotor assembly. The rotor assembly includes a rotor, rotor shaft, and first and second end rings. The rotor has inner and outer diameter surfaces and an embedded set of rotor magnets proximate the outer diameter surface. The shaft is connected to the rotor and defines a main coolant passage along an axis of rotation. Radial shaft coolant passages are in fluid communication with the main coolant passage. The end rings are positioned at opposing distal ends of the rotor. The shaft coolant passages direct the coolant into the rotor and/or the end rings such that the coolant flows axially through rotor cavities of the rotor and cools the rotor magnets via forced convection. | 2021-05-06 |
20210135534 | MOTOR - A motor includes a rotor, a back cover, a housing, and a brush card assembly. The rotor includes a core fixed to a shaft, a coil that magnetizes a core, and a commutator connected to the coil. The back cover includes a back cover bottom surface portion, and a back cover cylindrical portion on an outer periphery of the back cover bottom surface portion to have a cylindrical shape. The brush card assembly includes a brush card bottom surface portion spaced apart from the back cover bottom surface portion in an axial direction through a first gap. The brush card bottom surface holds brushes and includes a nip portion nipped by the back cover and the housing, an outer peripheral wall spaced apart from the back cover cylindrical portion in a radial direction through a second gap, and contact portions contacting the back cover cylindrical portion. | 2021-05-06 |
20210135535 | ELECTRIC MACHINE - An electric machine, in particular for a motor vehicle, is provided. The machine includes a housing, which is designed open and partially surrounds a housing interior. The machine, furthermore, includes a rotor, which is arranged rotationally adjustably relative to the housing in the housing interior. The machine additionally includes a stator, which is arranged fixed in place relative to the housing in the housing interior and includes multiple magnetic field coils with electrically energizable stator windings. For electrically energizing the stator windings the field coils are electrically connectable or connected to a power electronic system. The power electronic system includes a cooling plate for cooling the power electronic system and is formed by a power electronic module that is formed separately from the housing and can be inserted into the housing interior. | 2021-05-06 |
20210135536 | ELECTRIC MOTOR PROVIDED WITH CONNECTOR TO WHICH POWER SIGNAL IS INPUT, AND METHOD FOR MANUFACTURING ELECTRIC POWER - An electric motor that can facilitate a process of manufacturing the electric motor. The electric motor includes a substrate mounted with an electronic component, a first connector provided on a stator, the first connector configured to receive a power signal input to a coil and a communication signal with the electronic component, and a wiring structure communicably connecting the electronic component and the first connector. The wiring structure has a second connector mounted on the substrate, and a third connector fixed to the stator, the third connector configured to be connected to the second connector and configured to attach the substrate to the stator by an operation of moving the substrate toward the stator. | 2021-05-06 |
20210135537 | Packing and Mounting Mechanism for Electric Motor in Small and Medium-Sized Appliances - A motor packing and mounting mechanism for a motor in a no larger than medium-sized appliance, such as wet and dry vacuum cleaner, a water aspirator, a water pump, or a humidifier, includes a motor seat supporting a motor in a housing so that the motor is axially disposed between the housing and the motor seat. At least one isolating cover is located inside the housing. A motor chamber for receiving the motor is defined among the housing, the motor seat, and the isolating cover. An axial mating clearance is defined between the isolating cover and the motor seat. A first seal is located and axially-mated in the axial mating clearance, the first seal having an elastic supporting portion. A cross section of the elastic supporting portion has a door-shaped structure, with the elastic supporting portion defining an opening facing an axial direction of the motor. | 2021-05-06 |
20210135538 | LUBRICANT SUPPORTED ELECTRIC MOTOR WITH CONTROLLED AND BALANCED LUBRICANT FLOW - A lubricant supported electric motor includes a stator presenting an stator raceway, and a rotor movable relative to the stator and presenting a rotor raceway disposed in spaced relationship with the stator raceway to define a gap therebetween. A lubricant is disposed in the gap for supporting the rotor relative to the stator. The stator defines at least one hydrostatic support chamber disposed in radially recessed relationship relative to the stator raceway and in fluid communication with the gap. The stator also defines a passageway disposed in fluid communication with the at least one hydrostatic support chamber for providing lubricant to the at least one hydrostatic support chamber and the gap. A flow restriction mechanism is disposed in fluid communication with the passageway for controlling and balancing a supply and pressure of the lubricant in the hydrostatic support chamber. | 2021-05-06 |
20210135539 | LUBRICANT SUPPORTED EXTERNAL ROTOR ARCHITECTURES - A lubricant supported electric motor includes a stator and a rotor and a drive hub. The rotor is moveable relative to the stator and a gap is defined between the rotor and the stator. A lubricant is disposed within the gap to support the rotor relative to the stator and provide a bearing mechanism. The drive hub is coupled to the rotor such that rotation of the rotor causes rotation of the drive hub. The drive hub may be connected to the rotor via a coupler member that is torsionally stiff and axially and radially compliant. The stator may be fixed relative to a connection structure that extends radially within the stator. The connection member may support the drive hub for rotation. Lubricant is supplied via a passageway extending through the connection member into a chamber that includes the gap. | 2021-05-06 |
20210135540 | MUTE SELF-GENERATING POWER GENERATOR - A mute self-generating power generator comprises a stator power generation armature and a rotor excitation magnet. The armature extends in a direction towards the magnet to form a plurality of cylindrical induction magnetic poles, and windings are wound on the poles; the magnet comprises at least two layers of structures in a direction towards the armature, one of which consists of a non-magnetic conductive material, and the other layer is formed by alternately arranging ferromagnetic material excitation magnets and magnetic conduction material magnetizers in a circumferential direction; a combination ratio of the number of the ferromagnetic material cylindrical induction magnetic poles and the ferromagnetic material excitation magnets on the magnet meets a double three-phase power generation condition. The generator eliminates the root cause of vibration and noise from the principle, so that it works in a mute state, and can well meet use requirements of various fitness equipment. | 2021-05-06 |
20210135541 | Permanent magnet motor - A rotating magnet electrical motor. The apparatus may be used with an electric vehicle as a supplemental power source. The device uses an energy storage component to provide initial start up power and may then run until the storage component is completely de-energized. The energy storage device, which may be a capacitor, provides energy pulses which are applied to a series of energizing coils which are positioned to apply an electromagnetic field to a magnet to produce rotating motion. The pulses are applied to the coils in accordance with a predetermined timing pattern. The energy storage component can be conveniently recharged when recharging the vehicle battery. | 2021-05-06 |
20210135542 | DIESEL GENERATOR WITH IMPROVED LOAD CAPACITY - A diesel generator with an improved load capacity according to one embodiment may include a generator body including a field magnet and an armature, and configured to convert rotational energy of a diesel engine main body into electric energy; and an automatic voltage regulator configured to control power supplied to a field winding and to control output voltage of the generator body. The automatic voltage regulator is driven by a power supplier configured to supply constant voltage or current based on power storage and conversion. According to the present disclosure, the diesel generator may have a load capacity without a PMG. | 2021-05-06 |
20210135543 | OFFSET TRIGGERED CANTILEVER ACTUATED GENERATOR - A plural magnet arrangement of a matrix of rows and columns having an altered magnet field alignment of a plurality of the magnets in a matrix comprising rows and columns of magnets in such a manner that there are at times a co-existing combination of changing attractive and repelling magnetic field regions all throughout the coil winding volume, reducing the counter electromotive force (voltage) during electrically connecting a load to the coil winding terminals and extends the time duration of the output voltage waveform and this is accomplished wherein the rotational torque required to rotate the centre magnet through the coil of which it is centred within is reduced. | 2021-05-06 |
20210135544 | FIN-COOLED AXIAL FLUX ROTATING ELECTRICAL MACHINE, AND APPLICATIONS THEREOF - Embodiments involve rotors for axial flux induction rotating electric machines that use a soft magnetic composite for the rotor core. A first embodiment is directed to a rotor for a rotating electrical machine that transmits magnetic flux parallel to a shaft of the rotor. The rotor includes a rotor winding and a plurality of cores. The rotor winding consists of a solid piece of conductive material that comprises a plurality of cavities. Each core is placed in a respective cavity and comprises a highly resistive isotropic ferromagnetic powder. | 2021-05-06 |
20210135545 | Housing for an Electric Machine with a Cooling Device - A housing for an electric machine includes a cooling device arranged on the periphery of a support plate, the cooling device contacts a heat-conducting ring connected to the housing, and the support plate as well as components arranged thereon have vibration damping and an electric insulation to provide advantageous structural conditions such that an advantageous cooling effect is achieved, and regions within the cooling device can be provided for fitting elements of the support plate. | 2021-05-06 |
20210135546 | Brushless Electrical Machine - A brushless electrical machine, in particular a brushless direct current motor, includes a housing, a shaft rotatably mounted in the housing, at least one rotor mounted on the shaft, a stator fixed to the housing, and a rotor position-detecting device. The rotor position-detecting device operates in a contactless manner and is associated with the rotor. The rotor position-detecting device has a multipole magnet ring rotationally fixed on the shaft and at least one sensor which is sensitive to magnetic fields and which is radially associated with the outer periphery of the magnet ring. | 2021-05-06 |
20210135547 | ORAL APPLIANCE FOR DELIVERY OF MEDICAMENTS AND/OR OTHER SUBSTANCES - An oral appliance is provided for delivering a medicament to at least a portion of teeth and/or soft tissue areas inside a mouth. The oral appliance contains an interior surface having a medicament disposed in or on at least a portion of and/or the entire interior surface of the oral appliance. The interior surface of the oral cavity is formed to fit contours of at least the portion of the teeth and/or soft tissue areas inside the oral cavity and is configured for holding the medicament in contact with at least the portion of the teeth and/or soft tissue areas inside the oral cavity to deliver the medicament to strategic areas in need of treatment. In some embodiments, computer, network and computer readable storage media are provided. | 2021-05-06 |
20210135548 | CONTROL DEVICE FOR CONTROLLING AN ELECTRIC MOTOR - A control device for controlling an electric motor of an electrical device may include a flat plate and a power electronics. The plate may extend in a plate plane. The power electronics may include a plurality of electronic components arranged and interconnected on the plate. The power electronics may have at least one electronic power component that produces waste heat during operation. The at least one electronic power component may be arranged such that a body of the at least one electronic power component penetrates the plate plane. A plurality of power connections, via which the at least one electronic power component may be interconnected to the plurality of electronic components, may be arranged at an edge of the plate. | 2021-05-06 |
20210135549 | AXIAL FIELD ROTARY ENERGY DEVICE HAVING PCB STATOR AND VARIABLE FREQUENCY DRIVE - An axial field rotary energy device or system includes an axis, a PCB stator and rotors having respective permanent magnets. The rotors rotate about the axis relative to the PCB stator. A variable frequency drive (VFD) having VFD components are coupled to the axial field rotary energy device. An enclosure contains the axial field rotary energy device and the VFD, such that the axial field rotary device and the VFD are integrated together within the enclosure. In addition, a cooling system is integrated with the enclosure to cool the axial field rotary energy device and the VFD. | 2021-05-06 |
20210135550 | Method of manufacturing rotational electric machine rotor, and rotational electric machine rotor - A method of manufacturing a rotational electric machine rotor includes: forming a rotor shaft having a non-circular sectional outer shape; forming a rotor core by stacking a predetermined number of magnetic body thin plates each including a center hole having a non-circular shape corresponding to the non-circular sectional outer shape of the rotor shaft; and forming a protruding part for fixing the rotor core and the rotor shaft to each other by inserting the rotor shaft into the non-circular center hole of the rotor core and squashing the rotor shaft extending out of an axial-direction end face of the rotor core by using a predetermined swaging jig to expand the rotor shaft outward beyond an outer periphery of the non-circular section along the axial-direction end face of the rotor core. | 2021-05-06 |
20210135551 | METHOD OF MANUFACTURING ROTATIONAL ELECTRIC MACHINE ROTOR - A method of manufacturing a rotational electric machine rotor includes: forming a rotor shaft having a non-circular sectional outer shape; forming a rotor core by stacking a predetermined number of magnetic body thin plates each including a center hole having a non-circular shape corresponding to the non-circular sectional outer shape of the rotor shaft; and forming a protruding part for fixing the rotor core and the rotor shaft to each other by inserting the rotor shaft into the non-circular center hole of the rotor core and squashing the rotor shaft extending out of an axial-direction end face of the rotor core by using a predetermined swaging jig to expand the rotor shaft outward beyond an outer periphery of the non-circular section along the axial-direction end face of the rotor core. | 2021-05-06 |
20210135552 | Method And Device For Deforming U-Shaped Electric Conductors - The invention relates to a method and a device ( | 2021-05-06 |
20210135553 | HOT DROP FASTENING OF COATED MACHINE COMPONENTS - A method of hot drop fastening components and a product thereby made is described. Machine components are provided. A first machine component defines a passageway and carries a coating. The first machine component is caused to expand by delivering a predetermined amount of energy to the first machine component, wherein the predetermined amount of energy is based on a property of the coating. A second machine component is inserted into the passageway of the expanded first machine component. Thereafter, the first machine component is permitted to cool with the first machine component inserted in the passageway thereby fastening the first machine component with the second machine component by the first machine component contracting as it cools. Properties such as adhesion and/or rust prevention properties of a primer coating in a motor manufactured using a hot drop process are preserved during the hot drop process in the manufactured product. | 2021-05-06 |
20210135554 | NOVEL DOUBLE-STATOR COMBINED ELECTRIC MACHINE SUITABLE FOR ACHIEVING SENSORLESS CONTROL OF ABSOLUTE POSITION OF ROTOR - A double-stator and electric machine suitable for achieving sensorless control of the absolute position of a rotor. An inner stator is fixed to a stationary shaft, an outer stator and the inner stator are concentric, and the above components form a stationary part of the electric machine. A rotor is assembled between the outer stator and the inner stator, and forms a rotating part of the electric machine with a moving shaft through a front rotor support. The rotating part is isolated from a front end cap through a front outer bearing. The rotating part is isolated from a back end cap through a back outer bearing after the rotating part is connected with a back rotor support. The moving shaft is isolated from the stationary shaft through an inner bearing. | 2021-05-06 |
20210135555 | Motor for Air Compressor - A motor for an air compressor is provided. The motor includes a stator including a first coil to generate a magnetic flux for driving the motor and a second coil positioned in a space the same as a space for the first coil to increase an inductance, and a rotator to mutually interact with the stator to rotate. | 2021-05-06 |
20210135556 | MOTOR FOR VEHICLE - A motor for a vehicle may include: a shaft member rotatably installed; a magnet attached to the outside of the shaft member; a cover covering the magnet, and fixing the magnet on the shaft member; and a stator disposed outside the cover and the magnet. A distance between the cover and the stator may be equal to a distance between the magnet and the stator. | 2021-05-06 |
20210135557 | METHODS AND APPARATUS FOR KINETIC ENERGY HARVESTING - Kinetic energy harvesting methods and devices are disclosed. A portable kinetic energy harvesting device includes a housing with a plurality of magnets fixed at spaced-apart locations in the housing. A wire coil is movably positioned in the housing for reciprocating movement past the magnets. The reciprocating movement of the wire coil through magnetic fields of the magnets generates an alternating current in the wire coil. A circuit electrically connected to the wire coil includes a rectifier to convert the alternating current generated by the wire coil into direct current. The device can be used to charge batteries including, e.g., batteries for powering portable electronic devices. | 2021-05-06 |
20210135558 | LINEAR MOTOR AND TRANSPORT SYSTEM USING THE SAME - A linear motor is provided. The linear motor according to an embodiment of the present disclosure may comprise: a primary member including a plurality of armature modules, each armature module including a magnet core including two or more protruding portions and a coil; and a secondary member including at least one magnet module. The primary member may be fixed and a movable member composed of the secondary member moves by generated thrust. And, along the moving direction, a first interval between first armature modules disposed in a first section may be different from a second interval between second armature modules disposed in a second section after the first section. | 2021-05-06 |
20210135559 | SYSTEMS AND METHODS TO HARVEST ENERGY AND DETERMINE WATER HOLDUP USING THE MAGNETOHYDRODYNAMIC PRINCIPLE - Embodiments provide systems and methods for creating and storing energy using the magnetohydrodynamic principle and the flow of a conductive fluid through a magnetic field downhole in a pipeline system. The system can also be configured to determine water holdup using the magnetohydrodynamic principle. The energy the system generates can be used to control electric valves and other electronic devices along the pipeline. The power storing and generating system can be configured to include permanent magnets, electrode pairs, isolation material, and a conductive flowing multiphase media. The multiphase media, i.e., oil, gas, water, or a mixture, flows through a pipeline that has electrodes in direct contact with the media and magnets also configured adjacent the media. The electrode pairs can be arranged inside of the pipeline opposite each other, with a permanent magnet placed between the electrodes and flush to the inside of the pipe, with flux lines perpendicular to the flow direction. Power output from the system is a function of the conductive fluid volume, flow velocity, magnet strength, and electrode size. Various embodiments include different arrangements of permanent magnets and electrode pairs. | 2021-05-06 |