43rd week of 2021 patent applcation highlights part 67 |
Patent application number | Title | Published |
20210336431 | AIRCRAFT LIGHTNING AVOIDANCE SYSTEMS AND METHODS - According to one implementation of the present disclosure, a method is disclosed. The method includes: detecting, on or proximate to one or more surfaces of an aircraft, a presence of an electric-field above a predetermined threshold; and in response to the detection, activating one or more beam sources to generate an ionized column of charge away from the aircraft. | 2021-10-28 |
20210336432 | Dry-Type High Voltage Cable Termination - The present disclosure relates to a dry-type cable termination comprising: a tubular support structure comprising: an insulator support comprising a frustoconical portion, wherein the insulator support is made of an electrically insulating non-metallic composite material having a tensile modulus of at least 11 GPa; and a screen tube; an insulating body at least partially externally covering and directly contacting the support structure; an elastomeric stress cone housed in the frustoconical portion and in direct contact to the frustoconical portion; an electrode, housed within the screen tube, connected with the stress cone and in electric contact with the screen tube. | 2021-10-28 |
20210336433 | TRANSFORMER SIMULATION SYSTEM, AND SIMULATION AND MEASUREMENT METHOD FOR SETTING VALUE - A transformer simulation system and a measurement method for setting value simulation are disclosed. The transformer simulation system includes an oil tank, a heating device, a pump body, a first oil pipe, a second oil pipe and a first flow sensor. The heating device is disposed in the oil tank. The oil tank is provided with a first inlet and a first outlet, the first outlet is connected to the first oil pipe, and the first inlet is connected to the second oil pipe. An end of the first oil pipe away from the oil tank is a first mounting end for being connected to an oil inlet of a gas relay, and an end of the second oil pipe away from the oil tank is a second mounting end for being connected to an oil outlet of the gas relay. The pump body is connected to the first oil pipe or the second oil pipe, and the first flow sensor is disposed in the first oil pipe. The above-described transformer simulation system can measure the oil flow velocity, that is the setting value of the gas relay, and the type of the insulation oil in the oil tank can be replaced, then the corresponding setting value of the gas relay is obtained, so as to prevent the original gas relay from not playing the role of the protection due to a different property of the insulation oil. | 2021-10-28 |
20210336434 | DEVICE AND METHOD OF PROTECTING SUPERCAPACITOR MODULE OF VEHICLE - A method of protecting a supercapacitor module of a vehicle contains steps of: A) installing; B) judging; C) executing a protection mode; and D) executing an operating mode. In the step A), an open circuit remains between the rechargeable battery and the supercapacitor module, and a voltage value of the supercapacitor module is 0. In the step B) the supercapacitor module is judged whether being satisfied with a protection condition, an external voltage is V | 2021-10-28 |
20210336435 | T-TYPE DC CIRCUIT BREAKER AND METHOD FOR CONTROLLING THE SAME - A T-type DC circuit breaker includes a main branch, a first commutation switch, a second commutation switch, and a bypass branch. The first commutation switch and the second commutation switch are arranged at both ends of the main branch, respectively. The bypass branch is connected in parallel with the main branch. The main branch includes at least one half-controlled power electronic component. The bypass branch includes a bypass capacitor and a bypass diode connected in series. Each of the first commutation switch and the second commutation switch includes at least one fully-controlled power electronic component. The first commutation switch is connected in parallel with a first surge arrester, and the second commutation switch is connected in parallel with a second surge arrester. The grounded branch is arranged between the main branch and the second commutation switch and is grounded or connected to the negative terminal of the load. | 2021-10-28 |
20210336436 | TRADING PLANNING APPARATUS AND TRADING PLANNING METHOD - A trading planning apparatus includes an order quantity planning section determining trading quantities with a plurality of trade connections from a trading cumulative quantity and estimated data about future quantities related to demand and the trade connections, a split-time-based split order planning section generating trading and ordering data containing data about an order price or an order quantity related to trading and ordering in each of planned trading periods that are periods into which a trading period, during which trading can be conducted, is subdivided, and a future quantity estimation section estimating estimated quantities of data related to errors in the future quantities estimated from actual record values, the order quantity planning section increasing or reducing the trading quantity of any of the trade connections when a difference between a sum of the trading quantities of all of the trade connections and a future quantity demanded is equal to or greater than a predetermined value. | 2021-10-28 |
20210336437 | SYNERGIC IDENTIFICATION METHOD FOR DYNAMIC STABILITY OF POWER SYSTEM - A synergic identification method for dynamic stability of a power system is provided, including: acquiring each dominant oscillation mode; acquiring a critical wavelet scale factor range corresponding to each dominant oscillation mode; calculating an oscillation modality of the dominant oscillation mode corresponding to the critical wavelet scale factor range by a right singular vector corresponding to a maximum value among first singular values of each reconstructed wavelet coefficient matrix in the critical wavelet scale factor range; calculating, according to the relation between left and right feature vectors and the estimated oscillation modality, a left feature vector corresponding to each dominant oscillation mode and calculating a participation factor of each measurement channel in this dominant oscillation mode; calculating direction cosines between measurement channels by the oscillation modality of the dominant oscillation mode, and classifying coherent generator groups or coherent bus groups in the system by the direction cosines. | 2021-10-28 |
20210336438 | GRID CONTROL FOR UNKNOWN RESONANCE EVENTS - Technologies for controlling forced oscillations in electrical power grids include a processing unit and a phasor measurement unit and a control device coupled to a power grid. The processing unit receives a measurement indicative of active power in the power grid from the phasor measurement unit and determines a frequency of a forced oscillation active in the power grid based on the measurement. The processing unit injects a corrective signal with the control device into the power grid. The processing unit determines a corrective phase and a corrective amplitude in response to injecting the corrective signal. The processing unit continues to inject the corrective signal with the corrective phase and the corrective amplitude. The control device may be a static VAR compensator, a synchronous generator, a static synchronous compensator, a synchronous condenser, an electric storage device, or a solar power plant. Other embodiments are described and claimed. | 2021-10-28 |
20210336439 | DISTRIBUTED POWER SUPPLY SYSTEM AND ENERGY REGULATION METHOD THEREOF - A distributed power supply system includes a plurality of energy modules, a plurality of power conversion modules, and a bus voltage controller. The energy modules are electrically connected to a DC bus via corresponding power conversion modules, and the bus voltage controller is connected to the power conversion modules. An energy regulation method includes: acquiring at least one energy state parameter of the corresponding energy module and computing a base value of the respective power conversion module; generating a normalized control signal based on a bus voltage of the DC bus and transmitting the control signal to the power conversion modules by the bus voltage controller; and obtaining a specified control reference value of the power conversion module depending on the control signal and the base value and regulating the corresponding energy module depending on the specified control reference value by the power conversion module. | 2021-10-28 |
20210336440 | Charging Station with High Frequency Distribution Network - A charging station for electric vehicles includes a central part for converting a grid AC voltage from an electrical grid into a high frequency AC voltage; a distribution network for distributing the high frequency AC voltage; and a plurality of coils directly connected to the distribution network, wherein each coil is adapted for transferring energy to an electrical vehicle. | 2021-10-28 |
20210336441 | System for Tracking and Allocating Renewable Energy Contributions to a Modular Renewable Energy System - A modular photovoltaic (PV) array system includes a PV array installed onto a fleet vehicle such as a trailer, bus etc., a host control system into which a plurality of fleet vehicles can connect to collectively generate electricity, and a subscriber system which collectively tracks energy generation and allocates respective contributions to the system. | 2021-10-28 |
20210336442 | SOLAR POWER SYSTEM - A solar power system may include a solar panel set, a lithium battery set, a first controller, and a second controller. A single-contact switch is electrically connected between the solar panel set and the lithium battery set. When the first controller detects that the generated voltage of the solar panel set reaches a preset threshold value, the first controller is adapted to trigger the first awakening of the lithium battery set by electrically conducting the single-contact switch, thereby brought the lithium battery set out of the low potential protection state. Also, when the second controller detects the voltage of the lithium battery set is not rising after the first awakening of the lithium battery set, the first controller is driven by the second controller to process the second awakening of the lithium battery set through the single-contact switch. | 2021-10-28 |
20210336443 | A HYBRID POWER PLANT AND A METHOD FOR CONTROLLING A HYBRID POWER PLANT - The invention relates to a hybrid power plant for producing power to the electrical grid, the hybrid power plant comprising a plurality of energy assets; a first renewable power generating unit, such as wind turbine generators, a second renewable power generating unit, such as a plurality of solar power units, and an energy storage unit, such as a battery energy storage system. A power plant controller is arranged to perform a first comparison of an active power reference with an available power from the first and the second renewable power generating units and performing a second comparison of available charging, or discharging, capability of the energy storage unit with said first comparison. In response to this first comparison, there are distributed set points to the first and the second renewable power generating units so as to deliver power from the hybrid power plant in accordance with the received active power reference. | 2021-10-28 |
20210336444 | METHOD AND SYSTEM FOR INTEGRATION AND CONTROL OF POWER FOR CONSUMER POWER CIRCUITS - In one embodiment, a power system includes a power panel operable to distribute alternating current (AC) power and pulse power to a plurality of power outlets and having an AC circuit breaker and a pulse power circuit breaker, the pulse power comprising a sequence of pulses alternating between a low direct current (DC) voltage state and a high DC voltage state, a power inverter and converter coupled to the power panel through an AC power connection and a pulse power connection and including a DC power input for receiving DC power from a renewable energy source, an AC power input for receiving AC power, and a connection to an energy storage device, and a power controller in communication with the power inverter and converter and operable to balance power load and allocate power received at the DC power input and the AC power input to the power panel. | 2021-10-28 |
20210336445 | CONTROLLED TRANSITION TO REGULATION - A device includes an amplifier having inverting and non-inverting inputs and an output. The device includes a capacitor coupled to a first node and to ground, a resistor coupled to the first node and the amplifier output, and a first switch coupled to the first node and a current sink, which is coupled to ground. The device includes AND gate having inputs and an output coupled to control terminal of first switch. The device includes a first comparator having non-inverting and inverting inputs and an output coupled to an AND gate input; a second comparator having a non-inverting input coupled to the amplifier output, an inverting input coupled to a transistor stack, and an output coupled to an AND gate input; and a second switch coupled to the transistor stack and to a current source, the second switch having a control terminal coupled to the first comparator output. | 2021-10-28 |
20210336446 | ELECTRONIC APPARATUS AND CHARGING METHOD THEREOF, AND STORAGE MEDIUM - An electronic apparatus includes: a display; a processor configured to, when a battery of the electronic apparatus is to be charged, obtain a display state of the display and generate a mode-selection signal according to the display state; and a battery management circuit connected to the processor and configured to, upon receiving the mode-selection signal, switch to one of a charge pump charging mode or a direct charging mode based on the mode-selection signal to charge the battery. | 2021-10-28 |
20210336447 | SMART BALANCING ENERGY CHARGING CONTROL SYSTEM - Disclosed is a smart balancing energy charging control system including a multi-power input unit connected to each of different power sources and receiving power for charging a battery pack from the different power sources, a micro-controller unit performing charging within rated power of the battery pack using charge power applied from the different power sources applied from the multi-power input unit and performing smart charging balancing control by determining whether a predetermined condition is met, and a battery pack charge connection unit coupled to the battery pack and charging the battery pack with the charge power applied through the smart charging balancing control under the control of the micro-control unit | 2021-10-28 |
20210336448 | Battery Management System with Control and Discharge Electronics - A charging system for charging a battery pack is provided. The charging system comprises a charging unit configured to charge and discharge the battery pack having a plurality of rechargeable cells. The charging system further comprises a balancing unit electrically coupled to the charging unit and configured to balance voltage across each rechargeable cell of the plurality of rechargeable cells, and a display unit electrically coupled to the charging unit and configured to display one or more parameters indicative of a charge and discharge status of the battery pack. | 2021-10-28 |
20210336449 | MULTI-CELL BATTERY MANAGEMENT DEVICE - Multi-cell battery management devices, systems, and methods are disclosed herein. A multi-cell battery management device comprises a battery pack including a power output terminal and a plurality of battery cells each having a positive and a negative terminal and connected in series fashion. Each of the plurality of battery cells includes: i) a cell control processor to monitor cell voltage, cell current, cell temperature, and cell fuse status; ii) a programmable shunt controlled by the cell control processor that varies the internal resistance of each of the cells; and iii) a data communications circuit connected to the cell control processor and to the positive and negative terminals of each cell, the communications circuit enabling data communication over the battery cell positive and negative output terminals, and wherein the cell control processor responds to commands received via the data communications circuit to vary the operating state of the programmable shunt. | 2021-10-28 |
20210336450 | METHOD AND SYSTEM FOR CHARGING MULTI-CELL LITHIUM-BASED BATTERY PACKS - A method and system for charging multi-cell lithium-based batteries. In some aspects, a battery charger includes a housing, at least one terminal to electrically connect to a battery pack supported by the housing, and a controller operable to provide a charging current to the battery pack through the at least one terminal. The battery pack includes a plurality of lithium-based battery cells, with each battery cell of the plurality of battery cells having an individual state of charge. The controller is operable to control the charging current being supplied to the battery pack at least in part based on the individual state of charge of at least one battery cell. | 2021-10-28 |
20210336451 | BATTERY STRESS RELIEF SYSTEM - A charge system for a vehicle includes a battery charge path, a current limiting element, and a capacitor. The current limiting element is arranged in series along the battery charge path, and in parallel relative to the capacitor. During an inrush event, the current limiting element is configured to initially restrict current flow between the battery and the load, increasing the rate and amount with which the capacitor is used to meet the current demands of the load. Thus, the current limiting element allows the battery to gradually increase its supply of current to the load in a manner that does not jeopardize its health. Once a steady state level of charging has been reached, the current limiting element is able to reduce its resistance to current flow, and the battery is able to safely take over as the primary source of current to the load. | 2021-10-28 |
20210336452 | BATTERY STRESS RELIEF SYSTEM WITH BYPASS - A power system includes a battery charge path and capacitor charge path arranged in parallel. During an inrush event, a current limiting element restricts current flow along the battery charge path to relieve battery stress. During the inrush event, current flow between the battery and load along a bypass path is also prevented by a switch element. Under steady state charging conditions, the resistance of the current limiting element decreases, thus increasing current flow between the battery and load along the battery charge path. During steady state conditions, a switch circuit controls operation of the switch element to also allow current flow between the battery and load along the bypass path. The change in the resistance of the current limiting element and/or actuation of the switch element by the switch circuit are optionally based on changes in temperature, and are passively effectuated without requiring an external control input signal. | 2021-10-28 |
20210336453 | BATTERY SYSTEM AND METHOD FOR OPERATING A BATTERY SYSTEM - A battery system for a motor vehicle. The battery system includes an actuating unit, a main control unit, multiple sub-control units, and multiple battery cells. The actuating unit is in signal communication with the sub-control units for data acquisition from the sub-control units. Each sub-control unit is in signal communication with a battery cell for data acquisition from the assigned battery cell. The main control unit is electrically connected to the sub-control units supplying power to the sub-control units. A method for operating a battery system is also described. | 2021-10-28 |
20210336454 | SYSTEMS AND METHODS FOR GATE DRIVER WITH FIELD-ADJUSTABLE UVLO - Systems and methods for gate driver with field-adjustable undervoltage lockout (UVLO) are disclosed. A gate driver system comprises a control circuit and a driver circuit. The driver circuit incorporates a field-adjustable UVLO, a control logic, and an inverter. The level of the field-adjustable UVLO is adjustable by an external circuit, which can be a resistor based voltage divider. By setting the UVLO level externally adjustable and by moving a reference ground to the external voltage divider, the gate driver system is able to implement gate control for various load without needing extra ground pin. | 2021-10-28 |
20210336455 | SHOPPING CART CHARGING DEVICE AND CHARGING SYSTEM, ESCALATOR, SHOPPING CART - A shopping cart charging device, a charging system, an escalator and a shopping cart is disclosed. The shopping cart charging device includes a charging electrode configured to be disposed on a wheel of a shopping cart. The charging electrode is configured to allow electrical connection with a power supply electrode disposed on an escalator, so as to charge the shopping cart. | 2021-10-28 |
20210336456 | ELECTRONIC DEVICE AND CHARGING METHOD OF ELECTRONIC DEVICE - An electronic device includes a display module including a first region exposed to an outside in first and second modes and a second region extending from the first region, where the second region is partially opposite to the first region in the first mode or is partially exposed in the second mode, the second region includes a curved region in the first mode and a flat region extending from the curved region and opposite to the first region, a supporting member disposed below the display module, a case which contains the display module and the supporting member, where the first and second modes are determined based on a sliding motion of the case, and a wireless charging coil which is contained in the case and shielded by the supporting member in the first mode, and does not overlap the supporting member in the second mode. | 2021-10-28 |
20210336457 | Modular Power Storage Unit and Related Systems - Systems are presented for modular, scalable storing and delivery of electrical power. Exemplary implementations may include: at least one energy storage device such as a plurality of battery cells or a flywheel energy storage device; an interconnection port configured for connecting the system to one or more other similar systems; one or more charging ports configured collectively to receive electrical power delivered at more than one voltage; and one or more discharge ports configured collectively to discharge electrical power at more than one voltage. In some embodiments, one or more of a solar power generation source, a wind generation source, and a hydroelectric generator may be electrically coupled to the system for supplying energy for charging. | 2021-10-28 |
20210336458 | CHARGING DEVICE, METHOD FOR CHARGING A MOBILE TERMINAL, CONTROL UNIT AND MOTOR VEHICLE - A charging device for a motor vehicle, wherein at least one rod element, which has a first end with a cross-sectional surface, which forms a part of a holding surface of the charging device, and wherein a main extension axis of the at least one rod element intersects the part of the holding surface such that a second end, opposite the first end, of the at least one rod element is facing away from the part of the holding surface and protrudes into the charging device, an adjustment device for adjusting the at least one rod element along the main extension axis, and an energy output device with at least one energy output element, wherein the energy output device is designed to output energy to an energy storage. | 2021-10-28 |
20210336459 | ELECTRONIC APPARATUS AND CONTROL METHOD - An apparatus includes a first authentication unit that performs an authentication process for determining whether an external apparatus is a predetermined external apparatus, a second authentication unit that performs an authentication process for determining whether a battery connected to the external apparatus is a predetermined battery, and a control unit that permits the battery to be discharged but restricts the battery from being charged regardless of whether the battery is the predetermined battery, in a case where the external apparatus is not authenticated as the predetermined external apparatus. | 2021-10-28 |
20210336460 | INTEGRATED BATTERY MONITORING CIRCUIT - A system for dealing with rechargeable batteries, including a computerized server, a monitoring circuit installed in a rechargeable battery and configured to periodically sample the status of the rechargeable battery and communicate the sampled information to the server, wherein the server analyzes the sampled information from the monitoring circuits of one or more rechargeable batteries and provides instructions for dealing with each rechargeable battery to a communication device of an administrator in charge of dealing with each rechargeable battery. | 2021-10-28 |
20210336461 | ON-BOARD CHARGING STATION FOR A REMOTE CONTROL DEVICE - A system is provided comprising: a materials handling vehicle; a wearable remote control device comprising: a wireless communication system including a wireless transmitter; and a rechargeable power source; a receiver at the vehicle for receiving transmissions from the wireless transmitter; a controller at the vehicle that is communicably coupled to the receiver, the controller being responsive to receipt of the transmissions from the remote control device; and a charging station at the vehicle. The charging station may charge the rechargeable power source of the wearable remote control device. The charging station may comprise a visual indicator. | 2021-10-28 |
20210336462 | BATTERY STATE ESTIMATION USING INJECTED CURRENT OSCILLATION - A method for estimating a state of a battery pack using a controller having battery state estimator (BSE) logic includes receiving or delivering a constant baseline current via the battery pack. Current oscillations having time-variant frequency content are selectively injected into the baseline current via the controller in response to a predetermined condition. The baseline current and the current oscillations combine to form a final current. The method includes estimating a battery parameter via the BSE logic concurrently with the current oscillations to generate an estimated battery parameter, and estimating the present state of the battery pack via the controller using the estimated battery parameter. An electrical system includes a rotary electric machine that is electrically connected to and driven by the battery pack, and a controller configured to execute the method. | 2021-10-28 |
20210336463 | STAND-ALONE OPERATION CONTROL SYSTEM - A system including a controller that continuously receives a SOC correlation value of a battery. The controller transmits an open/close signal of a first pattern to a plurality of switches during a period in which a stand-alone operation is being executed and the SOC correlation value is higher than a first threshold value. The controller transmits an open/close signal of a second pattern to the plurality of switches during a period in which the stand-alone operation is being executed and the SOC correlation value is equal to or lower than the first threshold value and higher than a second threshold value that is lower than the first threshold value. The number of load connections according to the open/close signal of the second pattern is fewer than the number of load connections according to the open/close signal of the first pattern and is equal to or more than 1. | 2021-10-28 |
20210336464 | INFERENCE BASED FAST CHARGING - A scheme to initiate fast charging of a battery based on inference, situation, and/or need. The scheme uses a situational fast charging algorithm that detects user's situation and judges if fast battery charging is needed and enables fast charging. Once the need for fast charging need is detected, there are at least two options to follow. In the first option, when a charger cannot provide enough power to support both system and battery fast charging, the system turns down system power (e.g., reduces display brightness) and starts fast charging with available charger power to a sufficient charge level. In the second option, when a charger can provide enough power to support both system and battery fast charging, the system starts fast charging to a sufficient charge level. | 2021-10-28 |
20210336465 | Charging Management Circuit, Terminal and Charging Method - A charging management circuit, a terminal and a charging method are provided. The charging management circuit includes: a first output end, configured to output constant current to a cell, for performing constant current charging on the cell; a second output end, configured to supply power to a load in a constant current charging process; and a control circuit, configured to stop the constant current charging when a voltage across both ends of the cell reaches a constant current charging cut-off voltage of the constant current charging, wherein the constant current charging cut-off voltage is greater than a rated voltage of the cell, and is configured such that an actual voltage of the cell is not overvoltage in the constant current charging process. | 2021-10-28 |
20210336466 | SYSTEMS AND METHODS FOR COMPENSATING FOR BATTERY CHARGING PATH RESISTIVE LOSSES - A method may include, in a management controller of an information handling system including a power system configured to provide electrical energy to information handling resources of the information handling system, the power system having a direct-current input power source, a rechargeable energy storage device coupled to and rechargeable from the direct-current input power source, and a charger configured to control recharging of the rechargeable energy storage device from the direct-current input power source: retrieving parameters from one or more registers associated with the rechargeable energy storage device, the parameters including a desired voltage across terminals of the rechargeable energy storage device and a desired current for recharging the rechargeable energy storage device during a constant current mode of a charging cycle of the rechargeable energy storage device and communicating the parameters to the charger such that the charger controls recharging of the rechargeable energy storage device in accordance with the parameters retrieved from the one or more registers. | 2021-10-28 |
20210336467 | CONTROL DEVICE FOR POWER SUPPLY CIRCUIT, NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM FOR STORING POWER SUPPLY CIRCUIT CONTROL PROGRAM, AND METHOD FOR CONTROLLING POWER SUPPLY CIRCUIT - A control device of a power supply circuit includes processing circuitry. The processing circuitry includes a state-of-charge calculator and a target calculator. The state-of-charge calculator calculate a state of charge of the first battery. The target calculator calculates a target voltage range. When an output voltage of the first battery detected by a voltage sensor cannot be acquired and an acquisition failure occurs, after the occurrence of the acquisition failure, the state-of-charge calculator is configured to obtain the state of charge of the first battery, as a held state-of-charge, that was calculated before the occurrence of the acquisition failure. When a pre-charge process is performed in a state in which the acquisition failure is occurring, the target calculator is configured to calculate an estimated output voltage of the first battery from the held state-of-charge and calculate the target voltage range based on the estimated output voltage. | 2021-10-28 |
20210336468 | CURRENT PROTECTION FOR BATTERY CHARGER - A device includes a battery current sense circuit configured to generate a battery current feedback voltage based on a current provided to a battery, a current regulation feedback loop configured to regulate the current provided to the battery based on the battery current feedback voltage and a configurable battery current reference voltage, and a precharge regulation feedback loop configured to regulate the current provided to the battery based on the battery current feedback voltage and a configurable precharge reference voltage. The device also includes a processor configured to set the battery current reference voltage to a first value and set the precharge current reference voltage to a second value. The first value is less than the second value during a transition state. | 2021-10-28 |
20210336469 | METHOD AND APPARATUS FOR CHANGING IMPEDANCE OF TERMINAL INCLUDED IN CONNECTOR - An electronic device includes a connector including a plurality of terminals for electrically connecting to a power supply device supplying a power to the electronic device and a control circuit. The control circuit senses a moisture entering the connector, changes an impedance of at least one specified data terminal among the terminals in response to the sensing of the moisture such that the power supply device identifies the impedance of the at least one specified data terminal and changes a level of a voltage depending on the impedance, and receives the voltage whose level is changed from the power supply device. Other various embodiments identified in the specification are also possible. | 2021-10-28 |
20210336470 | POWER MANAGEMENT CIRCUIT - One example discloses a power management circuit, including: an ultrasonic transmitter configured to generate an ultrasonic signal having a set of transmitted ultrasonic signal attributes; an ultrasonic receiver configured to detect the ultrasonic signal having a set of received ultrasonic signal attributes; wherein the power management circuit is configured to cause a device to be operated at a first power level and a second power level; and a proximity detection circuit configured to transition the device from the first power level to the second power level in response to a preselected difference between the transmitted set of ultrasonic signal attributes and the received set of ultrasonic signal attributes. | 2021-10-28 |
20210336471 | ACTIVE BATTERY MANAGEMENT METHOD FOR ECONOMIC OPTIMIZATION - Method for active battery management to optimize battery performance. The method includes providing signal injections for charging and discharging of a battery. The signal injections include various charging and discharging profiles, rates, and endpoints. Response signals corresponding with the signal injections are received, and a utility of those signals is measured. Based upon the utility of the response signals, data relating to charging and discharging of the battery is modified to optimize battery performance and to determine when to discharge the battery into a power grid in order to return power to the grid in exchange for an economic benefit such as a payment or rebate from a utility company. | 2021-10-28 |
20210336472 | CHARGING SYSTEM AND METHOD USING MOTOR DRIVING SYSTEM - A charging system and method using a motor driving system which can charge a vehicle battery using charging equipment providing various voltages using a motor driving system provided in a vehicle and improve charging efficiency by selectively determining a charging mode in response to an actual voltage state of the vehicle battery. | 2021-10-28 |
20210336473 | CONTROLLER AND CONTROL METHOD FOR POWER SUPPLY CIRCUIT, AND MEMORY MEDIUM - A controller for a power supply circuit, a control method for a power supply circuit, and a memory medium are provided. In a case in which a monitored value starts decreasing from when a second relay is de-energized, the controller measures elapsed time from when the monitored value starts decreasing to when the monitored value starts increasing. It is determined that a third relay has deteriorated when a determination condition, which includes a condition that the elapsed time is greater than or equal to a specified reference value, is met. | 2021-10-28 |
20210336474 | POWER BACKUP CIRCUIT AND METHOD OF OPERATING THE SAME - A power backup circuit provides a plurality of input power sources to back up a load. The power backup circuit includes a first switch, a second switch, and a control unit. The input power sources at least includes a first input power source and a second input power source. If the input power source of the load needs to be changed from the first input power source to the second input power source, the control unit controls the first switch to be coupled to the second input power source and controls the second switch to be coupled to the second input power source after the control unit effects a supply current flowing through a first power supply path and a second power supply path both coupled to the first input power source and the load to be reduced below a current threshold. | 2021-10-28 |
20210336475 | FUEL CELL BASED UNINTERRUPTIBLE POWER SUPPLY SYSTEMS - A system includes a DC bus and an auxiliary power source coupled to the DC bus. The system further includes an energy storage device and a modular uninterruptible power supply (UPS) including a first uninterruptible power module (UPM) coupled to the DC bus and configured to provide power to an AC load from the auxiliary power source and a second UPM coupled to the DC bus and the energy storage device and configured to transfer energy between the DC bus and the energy storage device to regulate a voltage on the DC bus. | 2021-10-28 |
20210336476 | SYSTEMS AND METHODS FOR SYNCHRONIZING SUBUNITS IN A MULTI-UNIT POWER DISTRIBUTION NETWORK - Systems and methods for synchronizing subunits a multi-unit power distribution network contemplate selectively opening and closing a switch at the power source to disconnect and reconnect the power source to power conductors to send a synchronization signal to one or more remote subunits. Once the remote subunits are synchronized and able to disconnect from the power conductors, leak detection at the power source may be enabled to detect inadvertent loads on the power conductors (e.g., a human touching the power conductors). Further, the remote subunits may power off and on based on the synchronization signal thereby ensuring that an end device may receive power concurrently from multiple remote subunits so as to meet the power requirements of the end device. Enabling the leak detection improves the safety features of the power distribution network and synchronized power delivery to the end device prevents improper shut downs. | 2021-10-28 |
20210336477 | SYSTEM FOR HOUSEHOLD ELECTRICAL MANAGEMENT AND CHARGING OF ELECTRIC VEHICLES AND/OR OTHER HIGH LOAD APPLIANCES - A load-sharing device shares electrical load between a high-ranking load and a low-ranking load. A current transformer connected between a circuit breaker panel and the high-ranking load senses current draw. The current transformer closes a first switch when sufficient current is detected and opens the first switch otherwise. Low-voltage power is connected across nodes of the first switch. A control circuit is connected in parallel with the first switch to control one or more second switches connected between the circuit breaker panel and a low-ranking load. When there is current flow in the control circuit, the second switches are closed, thereby permitting power delivery to the low-ranking load and when there is no current flow in the control circuit, the one or more second switches are open circuited. When the first switch is closed, it provides a short circuit, thereby preventing current flow in the control circuit. | 2021-10-28 |
20210336478 | Modular Gravitational Energy Storage Systems - The present invention provides novel designs and improved methods for the construction and operation of a gravity powered energy storage facility. This facility might also be called a gravity battery or a gravitational potential energy storage device. The device converts electricity into gravitational potential energy, and vice versa, by raising and lowering massive modules between a higher elevation and a lower elevation. These modules could maximize their mass with weight container units consisting of any heavy medium, such as water, stone, metal, concrete, compacted earth, etc. The present invention includes such designs and design optimizations which can achieve such scale. To accomplish this, the system's height is optimized by utilizing an underground vertical shaft which can provide a large height differential. And the system's weight is optimized by implementing a modular design which can evenly distribute a very large load. This modular design uses multiple tethers, gears, or other supporting elements to evenly distribute the load for modular sections of weight. Further design elements optimize this system for peak performance. | 2021-10-28 |
20210336479 | Electrical Energy Transmission Device And Life Cycle Management - An electrical energy transmission device for the transmission of electrical energy has a fluid-holding chamber. An electrically insulating fluid is contained in the fluid-holding chamber. The electrically insulating fluid is, at least in part, air-drawn from the surroundings of the electrical energy transmission device. The insulating fluid is used for insulating phase conductors in order to avoid short circuit conditions. | 2021-10-28 |
20210336480 | DEVICE FOR AMBIENT THERMAL AND VIBRATION ENERGY HARVESTING - An integrated circuit on a chip may include a plurality of capacitors that are connected in series and generate an AC noise signal. A selected bandwidth of the AC noise signal transmits through the series of capacitors as a first AC power signal. Respective rectifiers are positioned for receiving a positive cycle of the first AC power signal and a negative cycle of the first AC power signal. Output terminals are connected to the respective rectifiers and configured for connection to an off chip circuit. The capacitors may be fixed or variable gap capacitors. | 2021-10-28 |
20210336481 | ENERGY HARVESTING APPARATUS USING ELECTROMAGNETIC INDUCTION AND SMART CANE - A smart cane may include: a main body configured to have an adjustable length; an inertia sensor unit configured to generate an angle value between a ground surface and the smart cane or detect an impact on the main body; and a controller configured to adjust the length of the main body according to at least one of the angle value and a number of impacts on the main body. | 2021-10-28 |
20210336482 | ELECTRIC POWER BASE - There is described an electric power base ( | 2021-10-28 |
20210336483 | MULTI-TRANSMITTING MULTI-RECEIVING MAGNETIC-RESONANCE WIRELESS CHARGING SYSTEM FOR MEDIUM-POWER ELECTRONIC APPARATUS - A multi-transmitting multi-receiving magnetic-resonance wireless charging system for a medium-power electronic apparatus includes a magnetic-resonance transmitting module and a magnetic-resonance receiving module. The magnetic-resonance transmitting module includes a transmitting-end Bluetooth-communication and control module and at least two magnetic-resonance transmitting channels. Each magnetic-resonance transmitting channel includes a direct current/direct current (DC/DC) regulator module, a radio-frequency power amplifier source, a matching network and a magnetic-resonance transmitting antenna which are connected sequentially. The magnetic-resonance receiving module includes a receiving-end Bluetooth-communication and control module, a power synthesis and protocol module and at least two magnetic-resonance receiving channels. Each magnetic-resonance receiving channel includes a magnetic-resonance receiving antenna, a receiving-antenna matching network, a rectifier and filter module, a primary regulator and filter module and a secondary regulator and filter module which are connected sequentially. The magnetic-resonance transmitting antenna is coupled with the magnetic-resonance receiving antenna in one-to-one correspondence. | 2021-10-28 |
20210336484 | RECEIVING UNIT AND POWER TRANSMISSION SYSTEM FOR WIRELESS POWER TRANSMISSION - The invention relates to a receiver unit ( | 2021-10-28 |
20210336485 | BATTERY MODULE AND HEARING DEVICE - A battery module for a hearing device is configured for inductive resonance charging. The battery module has a secondary cell, a blocking sleeve that encloses the secondary cell and shields the secondary cell against a magnetic field, a jacket formed from permeable material outside the blocking sleeve, and an induction coil outside the jacket for receiving energy inductively. The induction coil and the jacket form a receiving antenna for receiving the energy. The material and/or the geometric structure of the blocking sleeve, the jacket made of permeable material, and/or the induction coil is/are additionally selected in such a way that the battery module, in particular the induction coil, has a quality factor of at least 35 for receiving energy at a predetermined value of a charging frequency that is employed by a charging device that generates a magnetic alternating field. | 2021-10-28 |
20210336486 | ELECTRIC POWER BASE - There is described an electric power base ( | 2021-10-28 |
20210336487 | POWER RECEIVING DEVICE AND POWER TRANSMISSION DEVICE - A power receiving device installable to a vehicle and included in a contactless power supply system for supplying power in a contactless manner between the power receiving device and a power transmission device installable on a road includes: polyphase receiver coils having at least three phases; an iron core that provides magnetic flux coupling between the receiver coils for the respective phases; and receiver capacitors connected on a one-to-one basis to the receiver coils for the respective phases. The receiver coils for the respective phases are arranged to have inter-coil distances between the receiver coils, with at least one of the inter-coil distances different from the other inter-coil distances. The receiver capacitors have capacitances set based on the inter-coil distances. | 2021-10-28 |
20210336488 | NON-CONTACT POWER RECEPTION APPARATUS FOR NON-CONTACT CHARGING AND ELECTRONIC SETTLEMENT PERFORMED IN A SINGLE PORTABLE TERMINAL - A non-contact power reception apparatus is provided, in which a power reception coil for a charging system and a loop antenna for an electronic settlement system are mounted on a battery pack and a cover case of a portable terminal such that the power reception coil is arranged in the center thereof and the loop antenna is disposed outside the power reception coil, so that a mode of receiving a wireless power signal and a mode of transmitting and receiving data are selectively performed, thereby preventing interference from harmonic components and enabling non-contact charging and electronic settlement using a single portable terminal. A jig for fabricating a core to be mounted to the non-contact power reception apparatus is provided. | 2021-10-28 |
20210336489 | WIRELESS POWER TRANSMISSION DEVICE AND OPERATING METHOD THEREFOR - Provided are a wireless power transmission device and an operating method therefor, the device confirming an optimum phase adjustment degree for each antenna by applying a reference signal to at least one from among a plurality of patch antennas and sequentially applying a plurality of phase electric signals to each of the remaining antennas, when an RF wave is formed using electric signals from a plurality of power sources. | 2021-10-28 |
20210336490 | WIRELESS CHARGING POSITIONING DEVICE AND METHOD, AND STORAGE MEDIUM - A wireless charging positioning device and method, a receiver and a storage medium are provided. The device is applied to a transmitter and includes: at least one group of detection coils and at least one processor. Each group of detection coils includes N detection coils, detection regions covered by different detection coils are at least partially different, detection coil is configured to transmit a detection signal and receive a feedback signal sent by a receiver, and N is a positive integer greater than or equal to 2. The at least one processor is connected with the N detection coils and configured to determine a position region of the receiver at the transmitter according to the feedback signals received by the N detection coils. | 2021-10-28 |
20210336491 | WIRELESSLY DISTRIBUTED AND MULTI-DIRECTIONAL POWER TRANSFER SYSTEMS AND RELATED METHODS - Wirelessly distributed and multi-directional power transfer systems and related methods are described herein. An example system for distributing power across a wireless medium can include a plurality of wireless modular power packs connected across a wireless medium to a wireless power receiver circuit that is connected to a load. Each wireless modular power pack can include a respective wireless power transmission circuit directing a respective wireless power signal to the wireless power receiver circuit. The system can also include a power source positioned within each of the wireless modular power packs. Each power source transmits a respective power signal across an internal power interface to a respective wireless power transmission circuit within a respective wireless modular power pack. | 2021-10-28 |
20210336492 | WIRELESS CHARGING - Examples of charging devices, apparatus and stations for wirelessly charging an electronic device, are described. In one example, the charging device may include a positioning mechanism coupled to power transmitter. The positioning mechanism adjusts a position of the power transmitter to change a perpendicular distance between the plane of the power transmitter and a charging surface of the charging device. | 2021-10-28 |
20210336493 | MOTOR - An embodiment relates to a motor comprising: a shaft; a rotor engaged with the shaft; and a stator disposed outside the rotor, wherein the stator includes a stator core formed by stacking a plurality of sheets and a coil wound around the stator core, the stator core including a yoke having a hole formed therein, a tooth protruding radially from the yoke, and an adhesive member disposed in the hole, the hole being disposed on an imaginary line L extending radially along the side of the tooth. Accordingly, the motor can form a stator core by stacking sheets, and reduce noise and vibration by filling an adhesive member in a hole formed in the stator core. | 2021-10-28 |
20210336494 | Axial Gap Motor - An axial gap motor includes a rotor and a stator disposed to be separated with a gap from the rotor in a direction parallel to a rotation axis of the rotor. The stator includes a bobbin housing a coil and a core provided on an inside of the bobbin and configured by a plurality of magnetic sections. A first magnetic section among the plurality of magnetic sections is in contact with an inner peripheral wall of, among side portions of the bobbin, a first side portion opposed to a side portion of a bobbin on one side adjacent to the bobbin. A second magnetic section among the plurality of magnetic sections is in contact with an inner peripheral wall of, among the side portions of the bobbin, a second side portion opposed to a side portion of a bobbin on the other side adjacent to the bobbin. A void portion is present between the first magnetic section and the second magnetic section. | 2021-10-28 |
20210336495 | GENERATOR AND WIND TURBINE - A generator and a wind turbine are provided. The generator includes an active cooling circuit and a passive cooling circuit, the active cooling circuit is in communication with a closed space, and the passive cooling circuit is in communication with the external environment. The active cooling circuit includes mutually communicating chambers located at two axial ends of the generator, an air gap between a rotor and a stator of the generator, and radial channels distributed along an axial direction of the generator. The active cooling circuit is provided with a cooling device in communication with the closed space, and the stator is fixed on a fixed shaft through a stator bracket. The passive cooling circuit includes a first axial channel running through the stator, a second axial channel running through the stator bracket, and an outer surface of the generator. A heat exchanger is further arranged inside the generator. | 2021-10-28 |
20210336496 | MOTOR ROTOR - A rotor for an electric motor includes a plurality of laminated sheets assembled into a puck. The puck defines a plurality of apertures for the receipt of rotor magnets. The apertures extend in a substantially circumferential direction around the puck. Each laminated sheet includes a plurality of protrusions and a plurality of corresponding recesses configured to receive the protrusions of an adjacent laminated sheet. The protrusions and recesses are configured to engage with an interference fit. The protrusions and corresponding recesses are positioned at a greater radial distance from a centre of the puck than the apertures and each protrusion is elongate in a substantially circumferential direction of the puck. | 2021-10-28 |
20210336497 | INTERIOR PERMANENT MAGNET MOTOR (IPM MOTOR) - Disclosed is an IPM motor that detects an accurate position of a rotor. The IPM motor includes a stator, a hub, a plurality of spokes extending outward in a radial direction from the hub, a plurality of slots defined between the spokes, a rotor rotatably installed in the stator, wherein the rotor includes a plurality of permanent magnets respectively arranged in the slots, a sensor disposed adjacent to the rotor, wherein the sensor is configured to detect a position of each permanent magnet, and a cover disposed on the rotor to cover the rotor, wherein the cover is constructed to guide magnetic flux of each permanent magnet to the sensor at a specific point of the slot of the rotor. | 2021-10-28 |
20210336498 | ROTOR AND MACHINE WITH A SUPERCONDUCTING PERMANENT MAGNET IN A ROTOR CARRIER - A rotor for an electric machine having a central rotor axis is disclosed herein. The rotor includes a rotor carrier and at least one permanent-magnetic, superconducting magnet device mechanically supported by the rotor carrier and having one or more superconducting magnet elements. The respective superconducting magnet element is embedded in an appropriate, assigned radially outer recess of the rotor carrier. The respective superconducting magnet element is formed by at least one strip conductor stack made up of multiple superconducting strip conductors. The respective strip conductor stack is secured in the associated recess by a radially further outer pole cap such that the pole cap holds together the individual strip conductors in the strip conductor stack. An electric machine including a rotor of this type and a method for producing a rotor of this type is also disclosed. | 2021-10-28 |
20210336499 | ELECTRIC MOTOR AND METHOD FOR MANUFACTURING ELECTRIC MOTOR - Provided is a high-quality electric motor which can be manufactured at a high yield rate. An electric motor comprises a stator which is housed in a motor case, and a rotor which is provided with a shaft and a rotor body section. The shaft is rotatably supported by the motor case, and the rotor body section has a ring magnet disposed inside the stator. A magnet cover into which the rotor body section is inserted has a circular cylinder section which covers the outer peripheral surface of the ring magnet, a turned-back section which is in contact with an end surface of the rotor body section, and a fastening end section which is fastened to a flange section provided to the shaft so as to cover an end surface. An engagement latch section engaging with the rotor is provided to the turned-back section. | 2021-10-28 |
20210336500 | ELECTRIC MOTOR AND ROTOR END RING - An electric motor comprises a housing, a stator mounted stationary within the housing and having end turn windings, a rotatable central shaft, a rotor mounted onto the central shaft for rotation within the stator, the stator, central shaft and rotor all positioned co-axially within the housing, a rotor end ring mounted onto the central shaft adjacent an axial end of the rotor, the rotor end ring including a body, a plurality of outlets adapted to allow coolant to flow from a back side to a face of the body, and a recess formed within the face of the body, wherein coolant flowing through the outlets flows across the recess toward an outer circumference of the body, and the outer circumference of the body is configured to prevent coolant from flowing into a circumferential air gap between the stator and the rotor. | 2021-10-28 |
20210336501 | ROTOR WEDGES AND METHODS OF MAKING ROTOR WEDGES - A wedge for a wound rotor includes a wedge body. The wedge body has a first layer and one or more second layers interfused with one another to provide structural support and limit resistive heating of the wedge from current flow within the wedge body by windings spaced apart by the rotor wedge. Generator rotors and methods of making generator rotors are also described. | 2021-10-28 |
20210336502 | STATOR AND ROTARY ELECTRIC MACHINE - A stator includes a stator core ( | 2021-10-28 |
20210336503 | TOOTH-WOUND COIL AND METHOD FOR PRODUCING A TOOTH-WOUND COIL - A tooth-wound coil of a stator or of a stator segment of a dynamo-electric machine having two straight sections spaced apart from each other and running substantially parallel. Two 180° curves are located on the ends thereof, wherein the straight sections have an active part area, the axial extend of which is less than or equal to that of the straight section. The tooth-wound coil has a symmetrical extension plane running in the longitudinal direction. An insulation material is provided around the straight sections of the tooth-wound coil. The material effects groove isolation and/or phase isolation in the stator or stator segment. | 2021-10-28 |
20210336504 | STATOR, MOTOR, AND COMPRESSOR - A stator includes a stator core in which an annular back yoke is integrated with a plurality of teeth circumferentially arranged on the back yoke at intervals, and an insulator that sandwiches the stator core from axial sides of the stator core. The insulator is molded integrally with the stator core using resin molding such that the insulator covers an inner surface of a slot portion of the stator core. A motor includes a rotor and the stator radially facing the rotor. A compressor includes a hermetic container, a compression mechanism disposed in the hermetic container, the motor disposed in the hermetic container to drive the compression mechanism. | 2021-10-28 |
20210336505 | STATOR COIL FOR HIGH POWER DENSITY AND EFFICIENCY ELECTRIC MACHINES - In one embodiment, a stator coil that includes a first turn with two or more strands is provided. The first turn includes first and second opposite sides, a coil termination at a first end of the first turn and an inversion region disposed at a second end, opposite the coil termination. The stator coil also includes at least one additional turn with two or more strands. The at least one additional turn includes first and second opposite sides, and an inversion region located adjacent to the inversion region of the first turn. The first and second sides of the first turn are inverted relative to the first and second sides of the at least one additional turn outside their respective inversion regions. | 2021-10-28 |
20210336506 | MOTOR - The present invention relates to a motor comprising: a motor housing for receiving a stator and a rotor therein; an outer housing detachably coupled to the outside of the motor housing; a first cooling path which is formed inside the outer housing and in which a first cooling fluid flows; a second cooling path which is formed inside the motor housing and in which a second cooling fluid flows to be capable of exchanging heat with the first cooling fluid; and a plurality of spray holes interconnected to one side of the first cooling path and formed to extend through the motor housing toward an inner space of the motor housing from the outer housing to spray the first cooling fluid into the inner space of the motor housing, and thus the present invention allows an oil path housing for oil-cooling to be easily attached to or detached from a water-cooling path housing. | 2021-10-28 |
20210336507 | ELECTRIC MOTOR SYSTEM - An electric motor system includes a rotary shaft having an axis line displaceable relative to a rotation center, a magnetic bearing for supporting the rotary shaft, a permanent magnet mounted on the rotary shaft and having a plurality of magnetic poles arranged in a circumferential direction around the axis line of the rotary shaft, three detection elements arranged in the circumferential direction around the rotation center for detecting a magnetic flux generated from the permanent magnet, and a coordinate detection section for determining coordinates of the axis line of the rotary shaft based on output values of two detection elements selected out of the three detection elements in accordance with a rotation angle of the rotary shaft. | 2021-10-28 |
20210336508 | HIGH EFFICIENCY ACCEL/DECEL SERVO DEVICE AND SYSTEM - A servo system for driving a load having a servo motor, a servo drive operatively coupled to the servo motor and a cyclic force convertor operatively coupled to the load is disclosed. | 2021-10-28 |
20210336509 | Copper-Fouling-Resistant Stator Water Cooling (SWC) System and Method - Described herein is a stator water cooling (SWC) system in an electrical power generator with improved resistance to copper fouling, more specifically, to a component of the SWC system, such as a strainer, having an anti-fouling metallic material on the surface of the component. Also described herein is a method of reducing copper fouling in a SWC system that comprises applying an anti-fouling metallic material to the surface of a SWC system component. | 2021-10-28 |
20210336510 | ROTOR END RING WITH OIL JACKET - An electric motor includes a housing, a stator having end turn windings, a rotatable central shaft, a rotor mounted onto the central shaft, and a rotor end ring mounted onto the central shaft adjacent the rotor, the rotor end ring including an annular disk shaped body having a circumferential outer diameter and a circumferential inner diameter and being formed from a thermally conductive material, a recess formed within a face of the body, an oil jacket formed within a back side of the body, the oil jacket comprising an annular channel having a circumferential outer wall and a circumferential inner wall, two inlets, each inlet extending radially between the inner diameter of the body and the inner wall of the oil jacket, a plurality of outlets, each outlet comprising a circumferential slot, the plurality of outlets equidistantly spaced around the face adjacent the circumferential inner wall of the oil jacket. | 2021-10-28 |
20210336511 | HOMOPOLAR LINEAR SYNCHRONOUS MACHINE - Homopolar linear synchronous machines ( | 2021-10-28 |
20210336512 | Passively-Cooled Brush Module for a Slip Ring System of an Electric Machine Energized by Current, Electric Machine and Motor Vehicle - A brush apparatus for a slip ring system of a current-energized electric machine for a motor vehicle is provided for supplying a rotor of the electric machine with current, wherein the brush apparatus is securable to a component of the electric machine that is mounted in fixed relation to the rotor. The brush apparatus includes a brush carrier having a cartridge-type holder and a brush arranged in the cartridge-type holder and forming a sliding contact with a slip ring of the slip ring system. The brush apparatus also includes a retaining device, formed from an electrically insulating material for retaining the brush carrier, which has a securing region for securing the brush apparatus on the component, and a heat-conducting core enclosed in the retaining device, which is exposed for the purpose of heat dissipation at least in the securing region of the retaining device that is couplable to the component. | 2021-10-28 |
20210336513 | ROTATING MACHINE AND METHOD OF USING THE SAME - A rotating machine includes a machine housing defining a housing interior, a shaft disposed in the housing interior, with the shaft having a length and an axis extending along the length. The shaft is rotatable about the axis. The rotating machine also includes an impeller wheel disposed in the housing interior and coupled to and rotatable by the shaft, with the impeller wheel having an angular position with respect to the axis. The rotating machine further includes a backplate coupled to the machine housing and having a first side facing the impeller wheel, at least one target element coupled to and rotatable with the impeller wheel, a circuit board coupled to the first side of the backplate and facing the impeller wheel, and at least one sensor disposed on the circuit board for detecting the at least one target element to determine the angular position of the impeller wheel. | 2021-10-28 |
20210336514 | SENSOR ARRANGEMENT COMPRISING TWO ROTATION ANGLE SENSORS OF DIFFERENT TYPES - A sensor assembly is provided comprising two rotational angle sensors of different type. The sensor assembly has a rotor and a stator. The first rotational angle sensor has an antenna comprised by the stator and a modulator comprised by the rotor. The second rotational angle sensor having a magnet comprised by the rotor and a magnetoresistive element or a hall sensor comprised by the stator. | 2021-10-28 |
20210336515 | MAGNETIC STEEL LOADING AND SEPARATING DEVICE FOR AN ENERGY MOTOR ROTOR - The magnetic steel loading and separating device is used for separating magnetic steel strips and large plastic spacers of a magnetic steel plate, and includes a material case, a material pushing mechanism and a material separating mechanism. The material case includes a case body for accommodating the magnetic steel plate, and a discharge port is formed in a side wall of the case body. The material pushing mechanism is used for successively pushing the magnetic steel strips and the large plastic spacers of the magnetic steel plate out of the material case via the discharge port, wherein a discharge position and a take-up position that are provided for the magnetic steel strip are formed outside the material case. The material separating mechanism includes a magnetic steel pushing block that reciprocates between the discharge position and the take-up position of the magnetic steel strip. | 2021-10-28 |
20210336516 | MANUFACTURING METHOD OF IRON CORE, IRON CORE, AND STATOR - A manufacturing method of manufacturing an iron core includes connecting a plurality of iron core pieces each including a tooth portion and a yoke portion in a strip shape, connecting the iron core pieces adjacent to each other by a connection portion, and forming a continuous iron core piece provided line-symmetrically with reference to the connection portion. A laminated body is formed by bending and superimposing the iron core pieces adjacent to each other while the connection portion is used as a symmetry axis. A pressure is applied in a laminating direction of the laminated body to fix the laminated body, and a coil is provided in the tooth portion. In this manner, it is possible to realize a manufacturing method of an iron core, which have a high material yield, high productivity, and excellent magnetic properties by using a thin iron core piece. | 2021-10-28 |
20210336517 | METHOD FOR MANUFACTURING ROTOR CORE - A method for manufacturing a rotor core includes detecting a height of a projecting portion formed on a lower die by a height detecting unit, and placing onto the lower die a core body in which a magnet insertion hole is formed such that the projecting portion is positioned in the magnet insertion hole when the height detecting unit has determined that the height of the projecting portion is within a set range. Additionally, the method includes bringing a permanent magnet in the magnet insertion hole into contact with an upper end of the projecting portion, and placing onto the core body a holding member after bringing the permanent magnet into contact with the upper end of the projecting portion. Melted resin is injected into the magnet insertion hole in which the permanent magnet has been inserted after placing the holding member onto the core body. | 2021-10-28 |
20210336518 | METHOD FOR POTTING AN FSM ROTOR AND FSM ROTOR HAVING HYBRID ROTOR POTTING - A method for putting an FSM rotor, having the following steps: arranging the FSM rotor to be potted having upright alignment in a potting mold; introducing a first casting compound from below into the casting mold until a certain pre-fill level is reached, at which the first casting compound extends at least up to the lower end face of the rotor winding; introducing a second potting compound from above into the potting mold, wherein the second potting compound is poured onto the rotor winding and is drawn into the rotor winding; further introducing of the first potting compound from below into the potting mold until a certain final fill level is reached; and curing of the potting compounds. | 2021-10-28 |
20210336519 | FLUX-MNEMONIC PERMANENT MAGNET SYNCHRONOUS MACHINE AND MAGNETIZING A FLUX-MNEMONIC PERMANENT MAGNET SYNCHRONOUS MACHINE - A flux-mnemonic permanent magnet synchronous machine (FMPMSM) includes: an annular stator having a winding; a rotor disposed concentric with the stator; and a power inverter for dispensing an excitation current and at least one current pulse. The rotor includes: at least two circumferentially magnetized adjustable permanent magnets, each permanent magnet having two poles normal to an air gap between the stator and rotor; and one or more flux adjusters adjacent to one or more magnet poles of the permanent magnets. A polarization ratio of magnetization of at least one of the permanent magnets is adjustable during operation of the FMPMSM by application of the at least one current pulse. | 2021-10-28 |
20210336520 | ACTUATOR - An actuator includes a connection body connected with a support body and a movable body and having at least one of elasticity and viscoelasticity, and a magnetic drive mechanism structured to relatively move the movable body with respect to the support body. The connection body formed in a tube shape is disposed on both end sides in the vibration direction of the movable body. In a state that the movable body is located at a home position, the inner peripheral part connected with one of the movable body and the support body of each of the connection bodies is pulled to a center side in the vibration direction of the movable body with respect to its outer peripheral part connected with the other of the movable body and the support body and is shear-deformed. | 2021-10-28 |
20210336521 | ACTUATOR - An actuator includes a support body, a movable body, a connection body connected with the support body and the movable body and provided with at least one of elasticity and viscoelasticity, and a magnetic drive mechanism structured to relatively move the movable body with respect to the support body. The connection body is disposed in a space in a radial direction between an inner side ring-shaped part provided in one of the movable body and the support body and an outer side ring-shaped part provided in the other of the movable body and the support body. The inner side ring-shaped part, the outer side ring-shaped part and the connection body structure a partition part which partitions an inside space of the case, and the partition part includes an air passage which is penetrated through the partition part in an axial line direction so that air resistance can be reduced. | 2021-10-28 |
20210336522 | GUIDE DEVICE FOR SHUTTLES OF A PLANAR MOTOR - Guide device for shuttles of a planar motor has a first end and a second end and defines a pose course of a shuttle between the first and second end. The first end, which defines an introductory pose of the shuttle, is arrangable on a first stator of the planar motor so that the introductory pose corresponds to an operationally controllable pose in relation to the first stator. The second end, which defines an exit pose of the shuttle, is arrangable on the first stator or a second stator of the planar motor so that the exit pose corresponds to an operationally controllable pose with respect to the first or second stator. The pose course includes at least one pose which is an operationally non-controllable pose with respect to stators of the planar motor. The guide device supports and stabilizes the shuttle in the at least one operationally non-controllable pose. | 2021-10-28 |
20210336523 | PERMANENT MAGNET MOTOR - A permanent magnet motor is constructed of a plurality of permanent magnets arranged in a circular arrangement on a base of the motor, and with a first cylindrical magnet and a second cylindrical magnet mounted on respective first and second radial shafts that project from a gear box on a center shaft to positions over the circular arrangement of permanent magnets. The motor operates to move the first and second cylindrical magnets in rotation over the circular arrangement of the plurality of permanent magnets in response to a one time initial motion and does not require communication with any outside source of energy and does not require an input of energy to the permanent magnet motor for continued operation of the permanent magnet motor. | 2021-10-28 |
20210336524 | Voltage Conversion Circuit - In a voltage conversion circuit, a sampling signal and a triangular wave signal are synthesized into a first signal, and the first signal and a second signal are compared to output a pulse-width modulation (PWM) signal. A frequency of the PWM signal may be determined by a frequency of the triangular wave signal. Therefore, the frequency of the PWM signal is fixed using the frequency-fixed triangular wave signal. Turning on or switching off of a power transistor in a voltage conversion subcircuit is controlled according to the PWM signal to convert a received direct current input voltage into a direct current output voltage, thereby implementing a fixed operating frequency for the voltage conversion circuit. | 2021-10-28 |
20210336525 | Switching Mode Power Supply With Zero Voltage Switching, The Primary Control Circuit And The Method Thereof - A switching mode power supply with zero voltage switching is discussed. It adopts a primary control circuit to turn on a primary switch circuit when a current flowing through the primary switch circuit reaches an inverse current threshold or when a variation rate of a voltage signal indicative of a voltage across the primary switch circuit reaches a rate threshold. | 2021-10-28 |
20210336526 | ADAPTIVE HARMONIC CANCELLATION - Certain aspects of the present disclosure provide apparatus and techniques for wireless communication implemented with harmonic cancellation. One example implementation includes a polar transmitter having at least one amplifier having an input configured to receive a phase-modulated signal to be amplified based on an amplitude-modulated signal, a harmonic cancellation circuit coupled to the input of the at least one amplifier, the harmonic cancellation circuit being configured to cancel at least one of an even harmonic or an odd harmonic of a transmission signal at an output of the polar transmitter, a controller having an output coupled to one or more control inputs of the harmonic cancellation circuit, and a feedback path between an output of the at least one amplifier and an input of the controller. | 2021-10-28 |
20210336527 | SUB-HARMONIC OSCILLATION CONTROL IN PEAK CURRENT LIMIT MODE SWITCHING SYSTEM - An electronic circuit includes a Pulse Width Modulation (PWM) circuit, a sub-harmonic reduction circuit, and a voltage feedback circuit. The PWM circuit produces a PWM signal according to a voltage control signal, a current of the electronic circuit, and a maximum duty cycle. When the electronic circuit is operating in a peak current limit mode, the sub-harmonic reduction circuit generates a feedback adjustment signal according to whether the current of the electronic circuit exceeds a peak current limit, whether a duty cycle of the PWM signal is greater than or equal to the maximum duty cycle, whether the voltage control signal is controlling the duty cycle of the PWM signal, or combinations thereof. The voltage feedback circuit generates the voltage control signal according to an output voltage produced using the PWM signal, a value of a reference voltage, and a value of the feedback adjustment signal. | 2021-10-28 |
20210336528 | TRANSMITTING POWER STAGE PARAMETERS FROM A VOLTAGE REGULATOR TO POWER STAGES - According to an aspect, a power supply system includes a plurality of power stages including a first power stage and a second power stage. The power supply system includes a voltage regulator connected to the first power stage and the second power stage. The voltage regulator is configured to detect an analog temperature signal from at least one of the first power stage and the second power stage via a communication line. The analog temperature signal is detected within a first voltage range. The voltage regulator is configured to transmit a digital bit stream to the first power stage and the second power stage via the communication line. The digital bit stream includes one or more programmable power stage parameters. The digital bit stream has digital levels within a second voltage range. | 2021-10-28 |
20210336529 | SHORT CIRCUIT CURRENT SUPPRESSION CIRCUIT FOR FLYING CAPACITOR CONVERTER AND ENERGY STORAGE SYSTEM HAVING THE SAME - The present invention discloses a flying capacitor converter, a short circuit current suppression circuit for the same and an energy storage system. The flying capacitor converter comprises a controller, and has a high voltage side connected to a first power source and a low voltage side connected to a second power source. The short circuit current suppression circuit comprises: at least one current detection unit connected to the low voltage side and/or the high voltage side of the flying capacitor converter; and at least one switch set connected in series to the high voltage side and/or the low voltage side of the flying capacitor converter, wherein the controller controls the switch set to cut off a connection between the flying capacitor converter and the first power source and/or between the flying capacitor converter and the second power source, when the current detection unit detects a short circuit. | 2021-10-28 |
20210336530 | MULTILEVEL PORT UNDER-VOLTAGE PROTECTION CIRCUIT WITH FLYING CAPACITOR - The disclosure provides a multilevel port under-voltage protection circuit with flying capacitor, comprising: a first circuit unit having first to fourth power switches sequentially connected in series, wherein the first circuit unit is arranged a positive terminal and a negative terminal of a DC input port and each of the switches can tolerate a reverse current; a first flying capacitor having a first terminal connected to the common node of the first power switch and the second power switch in series, and a second terminal connected to the common node of the third power switch and the fourth power switch in series; and a first shunt element connected in antiparallel to the first power switch or the fourth power switch, wherein a pulse peak current tolerated by the first shunt element is greater than the reverse current tolerated by the first power switch or the fourth power switch. | 2021-10-28 |