01st week of 2022 patent applcation highlights part 64 |
Patent application number | Title | Published |
20220006312 | DEVICE TO BE CHARGED, AND CHARGING AND DISCHARGING CONTROL METHOD - A device to be charged and a charging and discharging control method are disclosed. The device to be charged includes: a first battery unit and a second battery unit connected in series; a charging circuit electrically connected to the first battery unit and the second battery unit; a first switch and a second switch electrically connected to the charging circuit, the first battery unit, and the second battery unit; and a control module electrically connected to the charging circuit, the first switch, and the second switch to control the first switch and the second switch according to a received control instruction, to enable the charging circuit to charge the first battery unit and the second battery unit, or enable the charging circuit to charge the second battery unit, wherein a charge rate of the first battery unit is lower than a charge rate of the second battery unit. | 2022-01-06 |
20220006313 | APPARATUS AND METHOD FOR CONTROLLING STEP CHARGING OF SECONDARY BATTERY - Disclosed is an apparatus and method for controlling step charging of a secondary battery. A charging control unit determines a SOC, an OCV and a polarization voltage of the secondary battery, determines an OCV deviation corresponding to a difference between the OCV and a predefined minimum OCV value, determines a correction factor corresponding to the polarization voltage and the OCV deviation, determines a look-up SOC by correcting the SOC according to the correction factor, determines the magnitude of a charging current corresponding to the look-up SOC, and provides the determined charging current to a charging device. | 2022-01-06 |
20220006314 | APPARATUS AND METHOD FOR CONTROLLING CHARGING OF SECONDARY BATTERY PACK - A charging control apparatus measures a first temperature of a first secondary battery selected from the plurality of secondary batteries, a second temperature of a coolant flowing into the cooling device, a charging current of the secondary battery pack, a first terminal voltage of the first secondary battery and a second terminal voltage of a second secondary battery closest to the cooling device, estimates a temperature of a temperature estimation point of the second secondary battery from a lumped thermal model having a thermal resistance between two points selected from the temperature estimation point of the second secondary battery, the first temperature measurement point and the second temperature measurement point, and measurement data about temperature, current and voltage, and determines the estimated temperature as a minimum temperature of the secondary battery pack, and varies a charging power provided to the secondary battery pack according to the minimum temperature. | 2022-01-06 |
20220006315 | CHARGE AND DISCHARGE CONTROL METHOD AND APPARATUS FOR TERMINAL, NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM AND ELECTRONIC APPARATUS - A charge and discharge control method and apparatus for a terminal, and a non-transitory computer-readable storage medium and an electronic apparatus are disclosed. The method may include: determining temperature parameters of at least one battery in the terminal, where the temperature parameters comprise at least one of a cumulative time TS for which the temperature of the at least one battery is greater than a first preset value, and a continuous time TN for which the temperature of the at least one battery is greater than a second preset value; and performing charge and discharge control on the at least one battery in the terminal according to the temperature parameters. | 2022-01-06 |
20220006316 | Battery Charger With a Plurality of Secondary Transformer Circuits - The present disclosure relates to a battery charger ( | 2022-01-06 |
20220006317 | Hybrid Battery Charger - A hybrid battery charger is disclosed that includes a linear charger circuit for providing vehicle starting current and battery charging and a high frequency battery charging circuit that provides battery charging current. The linear charger circuit and the high frequency battery charging circuits are selectively enabled to provide vehicle starting current, maximum charging current and optimum efficiency. | 2022-01-06 |
20220006318 | DEVICE CHARGING SYSTEM - Optimized bus powered peripheral battery charging includes a circuit to initiate a change in an advanced configuration and power interface (ACPI) state in a controller allowing charging of a peripheral device battery, the circuit including a signal converter coupled between an input port and the controller to sense when a the peripheral device battery is coupled to an input port and to restrict the controller from changing ACPI state multiple times for a given peripheral device battery coupling; and a ground loop detector coupled in parallel to the signal converter between the input port and the controller to allow the controller to know that the peripheral device battery has maintained being coupled to the input port. | 2022-01-06 |
20220006319 | VEHICLE WITH TOILET AND CONTROL METHOD THEREFOR - A vehicle with a toilet room, includes a first electronic apparatus installed in the vehicle, the first electronic apparatus being configured to operate the toilet room, a first electric system connected to the first electronic apparatus and supplying electric power to the first electronic apparatus, a second electronic apparatus different from the first electronic apparatus installed in the vehicle, a second electric system connected to the second electronic apparatus and supplying electric power to the second electronic apparatus, and control means for performing control for switching between a first state and a second state, the first state being a state in which the control means controls the first electric system and supplies electric power only to the first electronic apparatus, and the second state being a state in which the control means controls the first and second electric systems and supplies electric power to the first and second electronic apparatuses. | 2022-01-06 |
20220006320 | MULTIPURPOSE SMART SWITCHBOARD DEVICE AND SYSTEM, AND OPERATION METHOD THEREOF - Disclosed in the present invention are a multipurpose smart switchboard device and system, and an operation method thereof, the multipurpose smart switchboard device and system including: a lead-in wire for supplying power to a customer; a main breaker connected to the lead-in wire; a first relay device connected between the main breaker and a first load using a regular power source; a second relay device connected to the first relay device; a third relay device connected to the second relay device; a fourth relay device connected between the third relay device and a second load including a general power consumption device; and a fifth relay device connected between the third relay device and a third load including a temperature regulation device. | 2022-01-06 |
20220006321 | COMPRESSED AIR ENERGY STORAGE AND POWER GENERATION APPARATUS AND COMPRESSED AIR ENERGY STORAGE AND POWER GENERATION METHOD - A compressed air energy storage and power generation apparatus includes an electric motor, a compressor, an accumulator, an expander, a generator, and a controller, in which the compressor includes a first compressor of dynamic type and a second compressor of a positive displacement type, during charge of the apparatus, in a case where variation time of predicted variation power exceeds activation stop time of the first compressor, the controller supports a predicted variation power component by performing a unit number control of the first compressor and performing the unit number control and a rotation speed control of the second compressor, and in a case where the variation time of the predicted variation power is equal to or less than the activation stop time of the first compressor, the controller supports the predicted variation power component by performing the unit number control and the rotation speed control of the second compressor. | 2022-01-06 |
20220006322 | WIRELESS CHARGER WITH COOLING FUNCTION - The present disclosure provides a wireless charger with a cooling function, including a front shell and a radiating rear shell. A radiating module and a wireless charging coil are mounted in a mounting space enclosed by the front shell and the radiating rear shell. The wireless charging coil and/or the front shell is provided with radiating holes communicated with the mounting space. The wireless charging coil is arranged in the mounting space, and is located at the lower end of the front shell. The radiating module includes: a radiating mechanism and a semiconductor refrigeration sheet. The radiating mechanism is arranged below the wireless charging coil. The semiconductor refrigeration sheet is located between the wireless charging coil and the radiating mechanism. A refrigerating surface of the semiconductor refrigeration sheet faces the wireless charging coil, and a heating surface of the semiconductor refrigeration sheet faces the radiating mechanism. | 2022-01-06 |
20220006323 | A BI-FUNCTIONAL RECEIVING/ TRANSMITTING ELEMENT FOR WIRELESS CHARGING - The present invention provides for a wireless charging system which may function as both RF wireless charging systems and inductive wireless charging system. The bi-functional element may be configured to function as either a coil for inductive charging, or as an antenna for RF electromagnetic charging of a wireless device. Certain embodiments of the invention provide for a switch to assist in selecting the function of the bi-functional antenna. By having the ability to switch between different charging methodologies, users of rechargeable devices may charge their electrical devices by prevailing wireless charging methods available. | 2022-01-06 |
20220006324 | Fast charging of electric vehicles while in motion or stationary - Disclosed embodiments facilitate exceptionally fast charging of electric vehicles that may be stationary or in motion. Wireless Power Transfer (WPT) is accomplished by use of high frequency power supplies, transmitting antennas, vehicle receivers and high capacity capacitors within the vehicles. The capacitors may be quickly charged and may be then used to directly power a vehicle and/or charge a vehicle's native battery. A vehicle receiver may wirelessly receive a wave of electrical power and cover the power to DC for further use or transition to the capacitors or vehicle battery. | 2022-01-06 |
20220006325 | FLAT PANEL SUBSTRATE WITH INTEGRATED ANTENNAS AND WIRELESS POWER TRANSMISSION SYSTEM - A flat panel substrate with integrated antennas and wireless power transmission system for delivering power to a receiving device is presented herein. A method can comprise depositing, onto a flat panel substrate, an antenna layer comprising multiple adaptively phased antennas elements; and depositing, onto the flat panel substrate, respective thin film transistor (TFT)-based antenna management circuits for the multiple adaptively phased antenna elements—the respective TFT-based antenna management circuits being operable to measure respective first phases at which first signals are received at the multiple adaptively phased antenna elements, and based on the respective first phases, control respective second phases at which second signals are transmitted from the multiple adaptively phased antenna elements to facilitate delivery, via the second signals, of power to the receiving device. Further, the method comprises forming traces communicatively coupling the multiple adaptively phased antenna elements to the respective TFT-based antenna management circuits. | 2022-01-06 |
20220006326 | WIRELESS POWER TRANSMISSION - Wireless power transmission methods, wireless power transmitters, wireless power receiving method, and wireless power receivers are disclosed. Wireless power is transmitted using power signal comprising a multi-sine waveform within a bandwidth to drive a plurality of antennas. Beam-forming coefficients are generated and the relative phases of the power signal used to drive the antennas is controlled by the beam-forming coefficients. | 2022-01-06 |
20220006327 | Wireless Power Mode Switching - A wireless power system may include an electronic device and a removable case. The electronic device and removable case may include wireless charging coils that are inductively coupled when the electronic device and the removable case are physically coupled. In a first mode, while the removable case is inductively coupled to the electronic device and the electronic device is not connected to a wired power source, a coil in the removable case transmits wireless power signals to the electronic device. In a second mode, while the removable case is inductively coupled to the electronic device and the electronic device is connected to a wired power source, the coil in the removable case receives wireless power signals from the electronic device. In a third mode, the removable case receives wireless power with a first coil and transmits wireless power to the electronic device with a second coil. | 2022-01-06 |
20220006328 | WIRELESS POWER CONTROL METHOD AND APPARATUS - The present invention relates to a wireless power transmission method and apparatus therefor. A wireless power transmitter according to an embodiment may comprise: a plurality of transmission coils; an alternating current power generator for generating a plurality of alternating current power signals applied to the plurality of transmission coils; a power source for supplying direct current power to the alternating current power generator; and a controller for controlling the phases of the plurality of alternating current power signals, wherein the controller changes the phase of at least one of the plurality of alternating current power signals to control transmission power output through the plurality of transmission coils. Therefore, the present invention provides an advantage in that a wireless power transmitter including a plurality of transmission coils can more precisely control wireless power. | 2022-01-06 |
20220006329 | Wireless Power Mode Switching - A wireless power system may include power transmitting devices, power receiving devices, and power transmitting and receiving devices. Control circuitry in the power transmitting and receiving device may determine whether to operate in a power receiving mode or a power transmitting mode. The preferred mode for the power transmitting and receiving device may depend on the types of devices within the system, the state of charge of the batteries of the devices in the system, whether or not one or more devices in the system are connected to a wired power source, etc. Each power transmitting and receiving device may have a default mode. Upon detection of an adjacent device, the wireless power transmitting and receiving device enters a configuration phase in its default mode. Before or during a power transfer phase, the power transmitting and receiving device may swap roles from its default mode to another mode. | 2022-01-06 |
20220006330 | State of Charge Information for a Wireless Power Transmitting Device - A wireless power system may include power transmitting devices, power receiving devices, and power transmitting and receiving devices. During a configuration phase (e.g., when placed adjacent to another device), a battery-powered transmitting device may transmit information to the additional device that identifies a presence of the battery in the transmitting device. The battery-powered transmitting device may periodically report its state of charge to a power receiving device using in-band communication. The battery-powered transmitting device may report its state of charge before a power transfer phase (e.g., in the configuration phase) or during the power transfer phase. The battery-powered transmitting device may report its state of charge to the power receiving device in response to a state of charge query from the power receiving device. The power receiving device may display the state of charge of the battery of the power transmitting device. | 2022-01-06 |
20220006331 | SYSTEM AND METHOD FOR PROVIDING INDUCTIVE POWER AT MULTIPLE POWER LEVELS - A system and method for inductively providing electrical power at a plurality of power levels to electrical devices. The system may include an inductive power outlet unit conductively coupled to a power supply and an inductive power receiver unit associated with the electrical device. The inductive power outlet unit includes a driver device operable to generate power at a plurality of power levels and electrical power is transferred to the electrical device at a power level selected from the plurality of power levels, in accordance with electrical power requirements of the electrical device. The power receiver may be operable in a plurality of modes having a secondary inductor configured to operate selectively with a plurality of inductance values. | 2022-01-06 |
20220006332 | Sub-Surface Wireless Charging and Associated Method - In an embodiment, a method includes: wirelessly transmitting power to a receiving coil from a transmitting coil, where the receiving coil is in a wireless power transmission space of the transmitting coil; measuring an output of a sensor during a first time to generate a first measurement; measuring the output of the sensor during a second time to generate a second measurement, the second time being after the first time; and when a magnitude of a difference between the first measurement and the second measurement is higher than a predetermined threshold, stopping wirelessly transmitting power to the receiving coil with the transmitting coil. | 2022-01-06 |
20220006333 | METHOD, ELECTRONIC DEVICE, AND STORAGE MEDIUM FOR PERFORMING ADAPTIVE IMPEDANCE MATCHING - The present disclosure relates to an artificial intelligence (AI) system which simulates functions such as cognition, judgment, and the like of the human brain by utilizing machine learning algorithms such as deep learning and the like, and to an application thereof. According to various embodiments, an electronic device may comprise: a first impedance matching circuit configured to perform a first impedance matching on a power signal wirelessly received from a wireless power transmission device; a second impedance matching circuit configured to perform a second impedance matching on the first impedance-matched power signal using any one impedance value among a plurality of impedance values; a control circuit configured to perform control to change an impedance value of the second impedance matching circuit to an impedance value learned using an impedance matching network model, corresponding to a power and a frequency of the second impedance-matched power signal; and a power conversion circuit configured to convert a second impedance-matched power signal in an AC form into a power in a DC form for charging a battery according to the changed impedance value. | 2022-01-06 |
20220006334 | LAMINATED CORE AND ELECTRIC MOTOR - A laminated core includes a plurality of electrical steel sheets that are stacked on one another. All sets of the electrical steel sheets adjacent to each other in a stacking direction are fixed to each other in the laminated core. Some sets of electrical steel sheets among all sets of the electrical steel sheets are fastened but not adhered to each other, and the remaining sets of electrical steel sheets are adhered but not fastened to each other. | 2022-01-06 |
20220006335 | STATOR, A MOTOR AND A VEHICLE HAVING THE SAME AND A METHOD OF MANUFACTURING THE STATOR - A stator of an SRM is disclosed. The stator includes two or more pairs of diametrically opposite stator poles and two or more stator windings Each stator winding is wound around each pair of diametrically opposite stator poles. The winding can be energized to generate magnetic flux within one stator pole of the pair of diametrically opposite stator poles along a radial axis thereof. The magnetic flux emanates out of a face of the stator pole. The stator further includes a permanent magnet disposed in the stator pole for diverting the magnetic flux to emanate at least substantially from a side surface of the stator pole. A motor and a vehicle including the stator are also disclosed. A method of manufacturing the stator is further disclosed. | 2022-01-06 |
20220006336 | ADHESIVELY-LAMINATED CORE FOR STATOR AND ELECTRIC MOTOR - The present adhesively-laminated core for a stator includes: a plurality of electrical steel sheets coaxially overlapping each other, and each of which having a core back part and a tooth part; and a plurality of adhesion parts which adheres between the electrical steel sheets, in which, between the respective electrical steel sheets, a partial adhesion strength provided by the adhesion parts and being an average adhesion strength per unit area in the tooth part, is lower than a partial adhesion strength provided by the adhesion parts and being an average adhesion strength per unit area in the core back part. | 2022-01-06 |
20220006337 | ELECTRIC MOTOR HAVING ROTOR ASSEMBLY WITH SEGMENTED PERMANENT MAGNET - A permanent magnet motor comprises: a rotor assembly configured to be rotatable relative to a stator, wherein the rotor assembly defines magnet pockets, a segmented permanent magnet comprising a plurality of magnet segments, which include one or more magnet segments of the segmented permanent magnet have different magnetic material from another or other magnet segments of the segmented permanent magnet, is disposed in each of the magnet pockets of the rotor assembly. The segmented permanent magnet is segmented in a circumferential direction. The one or more magnet segments of the segmented permanent magnet comprises magnetic material having higher coercivity, or operable at a higher temperature, than the another or other magnet segments of the segmented permanent magnet. The one or more magnet segments of the segmented permanent magnet comprise rare earth permanent magnet, high energy density magnet, samarium cobalt (Sm—Co) magnet or neodymium iron boron (Nd—Fe—B) magnet. | 2022-01-06 |
20220006338 | ROTOR OF ROTATING MACHINE AND MANUFACTURING METHOD OF ROTOR OF ROTATING MACHINE - A rotor of a rotating machine includes a rotor core in which a plurality of assembly holes is provided in an axial direction, and a first magnet and a second magnet. The first magnet and the second magnet are assembled to the rotor core by being inserted into the assembly holes in accordance with a predetermined arrangement pattern. An outer peripheral surface of any one of the first magnet and the second magnet, including end faces in the axial direction, being entirely covered with an insulating coating, and an outer peripheral surface of the other of the first magnet and the second magnet, excluding at least a part of end faces in the axial direction, being covered with an insulating coating. | 2022-01-06 |
20220006339 | ROTATING ELECTRICAL MACHINE AND METHOD OF MANUFACTURING ROTOR - A rotating electrical machine includes a magnetic field generator, and an armature that includes a multi-phase armature winding. The magnetic field generator includes a tubular cylindrical magnet carrier having opposing first and second peripheral surfaces and arranged to be coaxial with a rotating shaft attached to the rotor. The first peripheral surface of the magnet carrier is closer to the armature than the second peripheral surface is. The magnetic field generator includes a tubular cylindrical magnet holder having opposing first and second peripheral surfaces. The first peripheral surface of the magnet holder is closer to the armature than the second peripheral surface is. The tubular cylindrical magnet holder is secured to the first peripheral surface of the magnet carrier, and the magnets are secured to the first peripheral surface of the magnet holder. The magnet holder has a stacked configuration stacked in an axial direction of the rotating shaft. | 2022-01-06 |
20220006340 | SYSTEM AND METHOD FOR CONTROLLING A MULTI-TUNNEL ELECTRIC MACHINE - Disclosed are various embodiments for a new and improved multi-tunnel motor and controller for an electric motor, where the motor controller is able to dynamically modify the number of phases and pole count of the electric machine in order to reduce the torque output and increase speed. | 2022-01-06 |
20220006341 | ROTOR, METHOD FOR MANUFACTURING ROTOR, AND MOTOR - A rotor used in an outer rotor motor includes a rotor holder in a tubular shape extending along a center axis, a rotor core in a tubular shape extending in an axial direction and being fixed to a surface of the rotor holder, directed radially inward, and permanent magnets bonded to an inner circumferential surface of the rotor core and side by side in a circumferential direction. The rotor core includes projection portions projecting radially inward from the inner circumferential surface of the rotor core. One or more of the projection portions are in a gap between the permanent magnets adjacent to each other in the circumferential direction. Each of the projection portions has an axial length shorter than an axial length of each of the permanent magnets. | 2022-01-06 |
20220006342 | ROTOR, MOTOR, AND METHOD FOR MANUFACTURING ROTOR - A rotor is provided with: a rotor core ( | 2022-01-06 |
20220006343 | STATOR FOR AN ELECTRIC MACHINE, ELECTRIC MACHINE, MOTOR VEHICLE, METHOD FOR PRODUCING A STATOR - A stator for an electric machine includes: a laminated stator core including stator grooves and having a plug-in side and a bending side, which bending side lies opposite the plug-in side in an axial direction; a stator winding having hairpin elements which are pushed into the stator grooves on the plug-in side of the laminated stator core and bent and electrically connected to the stator winding on the bending side of the laminated stator core; and an end plate which is arranged on the plug-in side in the axial direction between the laminated stator core and the hairpin elements. The hairpin elements are arranged in the axial direction so as to bear against the end plate. | 2022-01-06 |
20220006344 | STATOR - A stator includes a cylindrical stator core provided with a plurality of slots, a segment conductor mounted to the stator core, and a resin insulator including a winding barrel portion and an insertion portion that are integrally molded. The segment conductor includes a plurality of leg portions inserted into the slots, and a crossover wire portion that couples two of the leg portions inserted into the slots that differ from each other. The winding barrel portion is disposed between the stator core and the crossover wire portion of the segment conductor. The insertion portion is disposed on an inner side from the segment conductor inside the slots of the stator core. | 2022-01-06 |
20220006345 | COMPRESSED STRAND, STATOR OR ROTOR OF AN ELECTRICAL MACHINE, AND ELECTRICAL MACHINE - The present invention relates to a compressed strand comprising a wire pack consisting of at least two wires, wherein at least one head end of the compressed strand, preferably both head ends, has/have a contact-making section and a heat-exchange section, and to a stator or rotor of an electric motor, wherein the rotor or stator, respectively, is equipped with at least one compressed strand according to at least one of the preceding claims, and to an electric motor, comprising a stator and a rotor, characterized by a stator and/or rotor according to at least one of the preceding claims. | 2022-01-06 |
20220006346 | METHOD AND SYSTEM FOR ELECTRICALLY INSULATING PORTIONS OF AN ELECTRIC MACHINE - An electric winding assembly comprising a conductor core which includes at least a first end and a distal second end, an insulation layer overlying the conductor core, and a conductive shield layer overlying the insulation layer. The conductive shield layer further having a terminal end conductively connected with the conductive shield layer. | 2022-01-06 |
20220006347 | ELECTRIC WORK MACHINE - An electric work machine includes a smaller motor. An electric work machine includes a motor and a housing accommodating the motor. The motor includes a stator and a rotor rotatable about a rotation axis. The stator includes a stator core, an insulator fixed to the stator core, a plurality of coils fixed to the insulator, and a terminal connected to each of the plurality of coils. The housing includes at least one first tab in contact with at least a part of a surface of the stator. The at least one first tab is at the same position as at least a part of the terminal in an axial direction parallel to the rotation axis. | 2022-01-06 |
20220006348 | METHOD FOR FIXING A FIRST COMPONENT IN A SECOND COMPONENT, AND UNIT, IN PARTICULAR AN ACTUATOR, FORMED BY THE METHOD - A method for fixing a first component in a second component. At least part of an internal side of the second component is overmolded for a plastic sleeve, and the first component is centered and fixed within the plastic sleeve of the second component by a press-fit. Secure fixing of the first component in the second component is achieved in this way. A unit is formed by a method of this type. | 2022-01-06 |
20220006349 | INTELLIGENT POWER GENERATION MODULE - An intelligent power generation module includes: an electric motor including a motor housing, an inverter disposed at a first side of the motor housing and including an inverter housing configured to accommodate an insulated gate bipolar transistor (IGBT), an inner housing disposed inside the motor housing, and a dual flow path disposed at a circumferential surface of the motor housing on which the inner housing is disposed. The dual flow path includes a plurality of first cooling flow paths spaced apart from each other and through which a first fluid flows, a second cooling flow path defined between the plurality of first cooling flow paths and through which a second fluid flows, and a plurality of injection nozzles disposed at each of the plurality of first cooling flow paths, spaced apart from each other, and configured to spray the first fluid to an inner space of the inner housing. | 2022-01-06 |
20220006350 | INTELLIGENT POWER GENERATION MODULE - An intelligent power generation module includes a motor having a motor housing; a cooling water flow path; a first oil flow path extending along a circumferential direction of the motor housing such that oil flows through one end portion of the motor housing; a plurality of first injection nozzles being spaced apart from each other in a circumferential direction of the first oil flow path and configured to inject the oil into the motor housing; an oil injection housing mounted at the other end portion of the motor housing; a second oil flow path formed along a circumferential direction of the oil injection housing such that oil flows inside the housing for oil injection; and a plurality of second injection nozzles being spaced apart from each other in a circumferential direction of the second oil flow path and configured to inject the oil into the motor housing. | 2022-01-06 |
20220006351 | DUAL SPEED MOTOR CONTROLLER AND METHOD OF OPERATION - A two-speed motor is mounted in a housing with an end cap. The end cap has a tubular structure defining an interior space, including an open first end connectable to the motor casing. The second end includes at least one planar surface and at least one air grate configured to permit airflow into and/or out of the interior space. A dual speed pump controller includes a motor controller for operating the dual speed motor. The controller includes an operating speed circuit for operating the motor in one of a first speed or a second speed, the first speed being greater than the second speed; an event circuit for operating the motor at the first speed before a predetermined event and operating the pump at the second speed after the predetermined event. | 2022-01-06 |
20220006352 | MAGNETIC THRUST LOAD SUPPORT FOR DOWNHOLE-TYPE SYSTEM - A downhole-type system includes a rotatable shaft; a sensor that can sense an axial position of the shaft and generate a first signal corresponding to the axial position of the shaft; a controller coupled to the sensor, in which the controller can receive the first signal generated by the sensor, determine an amount of axial force to apply to the shaft to maintain a target axial position of the shaft, and transmit a second signal corresponding to the determined amount of axial force; and multiple magnetic thrust bearings coupled to the shaft and the controller, in which each magnetic thrust bearing can receive the second signal from the controller and modify a load, corresponding to the second signal, on the shaft to maintain the target axial position of the shaft. | 2022-01-06 |
20220006353 | Cooling Device for an Electric Drive Unit of a Motor Vehicle, Drive Unit and Motor Vehicle - A cooling device for an electric drive unit of a motor vehicle includes a housing and at least one cooling structure. The housing is configured to receive the at least one component of the drive unit. The housing, at least in some regions thereof, is a cooling jacket for the at least one component and being configured to cool the at least one component. The cooling jacket having at least one cooling duct through which a cooling fluid is flowable. The at least one cooling structure is an insert inserted into the at least one cooling duct and is configured to increase a flow resistance of the cooling fluid by generating turbulences of the cooling fluid. | 2022-01-06 |
20220006354 | STATOR CORE, HOUSING, MOTOR COOLING SYSTEM OF ELECTRIC VEHICLE, AND ELECTRIC VEHICLE - This application provides a motor cooling system of an electric vehicle. In the cooling system, a coil cooling oil passage includes a first oil outlet that is at an end portion of a stator core. A core cooling oil passage and the coil cooling oil passage are sequentially connected. In this case, cooling oil first enters the core cooling oil passage, and then enters the coil cooling oil passage. The core cooling oil passage extends in a circumferential direction of the stator core. The coil cooling oil passage extends in an axial direction of the stator core. A power apparatus drives the cooling oil to enter the core cooling oil passage from an oil inlet, flow through the core cooling oil passage, and enters the coil cooling oil passage from an oil through port. The cooling oil flows back to an oil return groove from the first oil outlet. | 2022-01-06 |
20220006355 | INVERTER INTEGRATED GAS SUPPLY DEVICE - An inverter integrated gas supply device includes an electric motor and an inverter. The electric motor has a motor-side connection part that is configured to receive a drive current. The inverter has an inverter-side connection part that is connected to the motor-side connection part, and configured to supply the drive current to the motor-side connection part. The motor-side connection part includes a motor-side connector housing fixed to a motor case, a motor connector that is configured to receive the drive current, and a sealing member configured to seal a gap between the motor-side connector housing and the motor connector. | 2022-01-06 |
20220006356 | ROTATING ELECTRICAL MACHINE - A rotating electrical machine includes a rotor and a magnet unit. The rotating electrical machine also includes a cylindrical stator and a housing. The stator is equipped with a stator winding made up of a plurality of phase windings. The stator is arranged coaxially with the rotor and faces the rotor. The housing has the rotor and the stator disposed therein. The rotor includes a cylindrical magnet retainer to which the magnet unit is secured and an intermediate portion which connects between a rotating shaft of the rotor and the magnet retainer and extends in a radial direction of the rotating shaft. A first region located radially inside an inner peripheral surface of a magnetic circuit component made up of the stator and the rotor is greater in volume than a second region between the inner peripheral surface of the magnetic circuit component and the housing in the radial direction. | 2022-01-06 |
20220006357 | ROTATING ELECTRICAL MACHINE - A rotating electrical machine includes a rotor and a magnet unit. The rotating electrical machine also includes a cylindrical stator and a housing. The stator is equipped with a stator winding made up of a plurality of phase windings. The stator is arranged coaxially with the rotor and faces the rotor. The housing has the rotor and the stator disposed therein. The rotor includes a cylindrical magnet retainer to which the magnet unit is secured and an intermediate portion which connects between a rotating shaft of the rotor and the magnet retainer and extends in a radial direction of the rotating shaft. A first region located radially inside an inner peripheral surface of a magnetic circuit component made up of the stator and the rotor is greater in volume than a second region between the inner peripheral surface of the magnetic circuit component and the housing in the radial direction. | 2022-01-06 |
20220006358 | ROTATING ELECTRICAL MACHINE - A rotating electrical machine includes a rotor and a magnet unit. The rotating electrical machine also includes a cylindrical stator and a housing. The stator is equipped with a stator winding made up of a plurality of phase windings. The stator is arranged coaxially with the rotor and faces the rotor. The housing has the rotor and the stator disposed therein. The rotor includes a cylindrical magnet retainer to which the magnet unit is secured and an intermediate portion which connects between a rotating shaft of the rotor and the magnet retainer and extends in a radial direction of the rotating shaft. A first region located radially inside an inner peripheral surface of a magnetic circuit component made up of the stator and the rotor is greater in volume than a second region between the inner peripheral surface of the magnetic circuit component and the housing in the radial direction. | 2022-01-06 |
20220006359 | IN-WHEEL MOTOR AND ELECTRIC WHEEL - An in-wheel motor includes a housing | 2022-01-06 |
20220006360 | FLUID PUMP - A fluid pump includes a pump casing, a motor connected to the pump casing, and an impeller driven by the motor. The motor includes a housing and a stator arranged in the casing. The housing is made of a non-magnetic material. The stator includes a stator iron core and a plurality of windings wound on the stator iron core. The motor further includes a sleeve having a cylindrical main body and a flange extending radially outwards from one end of the main body and fixed to the housing. An annular space is jointly bounded by the sleeve and the housing to accommodate the stator. A part of inner surface of the housing and a part of bottom surface of the flange facing the annular space are coated with a metal coating for electromagnetic wave shielding. | 2022-01-06 |
20220006361 | POSITIONING PRESSER AND POSITIONING STRUCTURE FOR RESOLVER STATOR - The present disclosure discloses a positioning presser and a positioning structure for a resolver stator, wherein the positioning presser is entirely of a round-ring shape, a main body of the positioning presser is provided with a stator pressing slot hole and/or a presser mounting slot hole, a positioning protrusion or groove is provided on an inner side of the positioning presser, and the positioning protrusion or groove matches with a groove or protrusion on the resolver stator, to position the resolver stator. The positioning presser according to the present disclosure can effectively reduce the difficulty in assembling of the revolver stator, which increases the efficiency in assembling, and reduces the defective percentage. | 2022-01-06 |
20220006362 | ELECTRIC WORK MACHINE - An electric work machine includes a smaller motor. An electric work machine includes a motor including a stator and a rotor rotatable about a rotation axis, and a sensor board including a rotation sensor that detects rotation of the rotor and a plate supporting the rotation sensor. The plate includes a first surface facing an end face of the rotor in an axial direction parallel to the rotation axis and a support area receiving the rotation sensor that faces the end face, and a second surface facing at least a part of the stator. In the axial direction, a distance between the support area and the end face is shorter than a distance between at least a part of the second surface and the end face. | 2022-01-06 |
20220006363 | MOTOR - An embodiment relates to a motor which comprises: a housing; a cover disposed to cover the housing; a stator disposed in the housing; a rotor disposed inside the stator; a shaft disposed in the center of the rotor; a sensing magnet disposed at the end of the shaft; and a circuit board including a sensor for sensing the sensing magnet, wherein the sensor is disposed inside a hole formed through the cover. Therefore, in the motor, a hole is formed through the cover disposed to cover an opening of the housing and a sensor is disposed inside the hole, so that a size of an axis direction of the motor can be reduced. | 2022-01-06 |
20220006364 | ELECTRICAL MACHINE HAVING AN INTEGRATED TEMPERATURE SENSOR AND ROTOR CONDITION CAPTURE SENSOR - An electric machine for a drive of a motor vehicle, having a stator, a rotor which can be rotated relative to the stator, a temperature sensor arranged and designed to capture a temperature of the stator and a rotor condition capture sensor which is arranged and designed to capture a rotational speed and/or rotational position of the rotor accommodated in a stator-fixed manner. The temperature sensor and the rotor condition capture sensor are implemented as subsystems of a common sensor system, wherein a first subsystem having the temperature sensor has an elastic thermally conductive contact element connected to the temperature sensor, which contact element is permanently fitted to a contact region of the stator. A hybrid module having this electric machine is also provided. | 2022-01-06 |
20220006365 | BOBBIN, STATOR AND THERMISTOR POSITIONING METHOD - A stator, a bobbin and a method for positioning a thermistor are provided. The bobbin can be fixed on a stator core of the stator and includes a ring shaped stop plate and a plurality of winding portions extending downward from a sidewall of the stop plate. A positioning groove is defined in the sidewall of the stop plate toward one of the winding portions for accommodating the thermistor, the positioning groove opens toward the one of the winding portions. | 2022-01-06 |
20220006366 | INVERTER INTEGRATED GAS SUPPLY DEVICE - An inverter integrated gas supply device includes a fluid machine configured to discharge air, an electric motor having a motor casing and configured to drive the fluid machine, an inverter having an inverter casing and configured to supply a drive current to the electric motor, a motor-side connection part attached to the motor casing and configured to receive the drive current, and an inverter-side connection part attached to the inverter casing, connected to the motor-side connection part. The motor-side connection part includes a motor-side connector housing, and a motor connector. The inverter-side connection part includes an inverter-side connector housing, and an inverter connector. A position of the motor connector relative to the motor-side connector housing is fixed; and a position of the inverter connector relative to the inverter-side connector housing is variable. | 2022-01-06 |
20220006367 | SYSTEMS AND METHODS TO MITIGATE ELECTRICAL VOLTAGE ON A ROTATING SHAFT IMMERSED IN OIL - Systems and methods to mitigate electrical voltage on a rotating shaft in an oil rich environment exposed to a viscous fluid or immersed in oil are disclosed. An example grounding brush assembly includes a plurality of conductive filaments configured to extend through the viscous medium surrounding the rotating shaft to be in electrical contact with the rotating shaft when the brush assembly is disposed proximate the shaft. | 2022-01-06 |
20220006368 | MOTOR - A motor includes a shaft, at least two bearings supporting the shaft, a magnet supported by the shaft between the at least two bearings, a stator surrounding the magnet, and a magnetic member arranged between the magnet and at least one of the bearings in a longitudinal direction of the shaft. The magnetic member has a large outer diameter with respect to an outer diameter of the magnet. | 2022-01-06 |
20220006369 | RROTOR ASSEMBLY FOR ELECTRIC MOTOR OF TURBOMACHINE WITH CARBON-CARBON COMPOSITE MAGNET-RETAINING JACKET MEMBER - A rotor assembly for an electric motor for a turbomachine defines an axis of rotation. The rotor assembly includes a jacket member that is hollow and that defines an inner radial surface facing inwardly toward the axis of rotation. Furthermore, the rotor assembly includes a magnet member that is received within the jacket member. The magnet member includes an outer radial surface facing outwardly from the axis of rotation. The jacket member is made of a sintered composite material having carbon filament and a sintered matrix. Additionally, the inner radial surface of the jacket member abuts against the outer radial surface of the magnet member to retain the magnet member in a radial position relative to the axis. | 2022-01-06 |
20220006370 | STATOR AND METHOD FOR PRODUCING A STATOR OF AN ELECTRIC MACHINE - A method for producing a stator ( | 2022-01-06 |
20220006371 | Permanent Magnet Motor - Permanent magnet motor having a drive shaft connected to a power generator. At least a first power unit and a second power unit are arranged about the drive shaft, mutually delimited within the longitudinal axis of the drive shaft by a shielding plate. Each power unit exhibits a first rotary disc and a second rotary disc, mutually inclined with respect to the longitudinal axis of the drive shaft. A stator plate is arranged between the first and second rotary disc and exhibits a pull track along its periphery, and a push track on diametral opposite side of the rotary disk. At least six permanent magnet pairs having a pull magnet and a push magnet are arranged at an equal mutual distance along respective attachment circles at the same radial distance from the drive shaft as the pull track and the push track, respectively. | 2022-01-06 |
20220006372 | POWER CONVERSION MODULE - A power conversion module includes a high-voltage side, a low-voltage side, a magnetic element, a high-voltage side circuit, and a low-voltage side circuit. The first end includes a high-voltage positive terminal and a high-voltage negative terminal. The second end includes a low-voltage positive terminal and a low-voltage negative terminal. The magnetic element includes two first windings. The high-voltage side circuit is electrically connected with the high-voltage positive terminal and the high-voltage negative terminal. The low-voltage side circuit is electrically connected with the low-voltage positive terminal and the low-voltage negative terminal. At least one AC loop includes at least one of the first windings, at least one part of the high-voltage side circuit and the low-voltage side circuit. The high-voltage side circuit and the low-voltage side circuit are located at a same side with respect to the magnetic element. | 2022-01-06 |
20220006373 | METHOD AND SYSTEM FOR PRESELECTING SWITCHING STATES FOR A MULTI-LEVEL CONVERTER - A method for switching control of a multi-level converter. The multi-level converter has a plurality of modules. A total switching state is formed from respective module switching states of the plurality of modules by the switching control. A current state of charge of all energy stores of the multi-level converter is provided continuously to the switching control. The switching control is divided into an offline part and an online part, wherein, in the offline part, a plurality of offline switching tables is calculated by way of optimizers in a continuous sequence and, for calculation of a respective offline switching table of the plurality of offline switching tables, a respective cost function is minimized according to at least one predefined offline optimization criterion for evaluating the total switching state. In the online part, an online switching table is selected from the plurality of offline switching tables in a continuous sequence. | 2022-01-06 |
20220006374 | REVERSE POLARITY PROTECTION CIRCUIT FOR A DC-DC CONVERTER - A reverse polarity protection circuit of a DC-DC converter includes an inductive component. When the DC-DC converter is connected to a power supply with correct polarity, the inductive component of the converter receives power via a body diode of a protection switch. Once the inductive component begins to charge and discharge under control of a driving switch, the protection switch turns on and allows full power to be provided to the inductive component. When the DC-DC converter is connected with reverse polarity, a clamping switch fed by the power supply turns on and connects a control input of the protection switch to ground, turning off the protection switch. The clamping switch is protected by a switch protection device to lower the voltage difference between a control input of the clamping switch and an input of the clamping switch. | 2022-01-06 |
20220006375 | AC/DC CONVERTER ARRANGEMENT - An electrical AC/DC converter arrangement includes: an AC circuit breaker; a rectifier; at least one smoothing capacitor; at least one first isolating relay for electrical isolation; at least one first current sensor; and a control and monitoring unit. An input of the AC circuit breaker forms an AC input of the arrangement. An output of the AC circuit breaker is connected, at least indirectly by a circuit, to an input of the rectifier. The at least one smoothing capacitor connects a first output of the rectifier to a second output of the rectifier. The first output of the rectifier is connected, at least indirectly by a circuit, to an input of the at least one first isolating relay. An output of the at least one first isolating relay forms a first DC output of the arrangement and connects a DC network to at least one first DC load. | 2022-01-06 |
20220006376 | MULTI-PHASE BUCK CONVERTER CIRCUIT, FAULT DETECTION METHOD AND APPARATUS THEREOF, AND STORAGE MEDIUM - A multi-phase buck converter circuit is provided, including a power supply, a plurality of phase buck circuits, each phase buck circuit including an input terminal, an output terminal, and a second input terminal, with input terminals of the plurality coupled to the power supply, a plurality of inductors coupled to the output terminals of the plurality of phase buck circuits, the plurality of inductors providing an output voltage at an output of the multi-phase buck converter circuit, a detection controller coupled to the output terminals of the plurality of phase buck circuits, the detection controller configured to detect a fault in the plurality of phase buck circuits, and a drive circuit coupled to the detection controller and coupled to each second input terminal of the plurality of phase buck circuits. The drive circuit is configured to detect a faulty phase buck circuit and stop driving the faulty phase buck circuit. | 2022-01-06 |
20220006377 | POWER SUPPLY DEVICE FOR ELIMINATING RINGING EFFECT - A power supply device for eliminating the ringing effect includes a bridge rectifier, a first transformer, a second transformer, a third transformer, a power switch element, a delay and stabilization circuit, an output stage circuit, and a controller. The bridge rectifier generates a rectified voltage according to a first input voltage and a second input voltage. The first transformer generates an induced voltage according to the rectified voltage. A magnetizing inductor is built in the first transformer. A parasitic capacitor is built in the power switch element. The second transformer generates a control voltage according to a resonant voltage between the magnetizing inductor and the parasitic capacitor. The output stage circuit includes a plurality of discharge paths and generates an output voltage. The discharge paths are selectively enabled or disabled according to the control voltage. | 2022-01-06 |
20220006378 | Adaptive DC-DC Boost Converter Arrangement - An adaptive DC-DC boost converter arrangement and an electronic circuit including such an arrangement are provided. The arrangement includes a circuit board with a plurality of electronic components mounted thereon, implementing an adaptive DC-DC boost converter circuit and a boost decoupling capacitor. The adaptive DC-DC boost converter circuit comprises a DC-DC boost converter having a converter set value input, a boost supply input, and a boost voltage output, and an adaptive DC-DC boost control unit having a control input and a control output. An acoustical noise suppression filter is present having a filter input connected to the control output of the adaptive DC-DC boost control unit and a filter output connected to the converter set value input of the DC-DC boost converter. | 2022-01-06 |
20220006379 | BOOST CONVERTER FOR IMPROVING OUTPUT STABILITY - A boost converter for improving output stability includes a transformer, a detection circuit, a first resistor, a power switch element, an output stage circuit, a feedback compensation circuit, a controller, an inverter, and a multiplier. The transformer includes a main coil and a secondary coil. The main coil receives an input voltage. The detection circuit is coupled to the secondary coil. The detection circuit generates a detection voltage. The first resistor is coupled to the main coil. The output stage circuit generates an output voltage. The feedback compensation circuit generates a feedback voltage according to the output voltage. The inverter generates an inverted oscillation voltage. The multiplier generates a compensation voltage difference according to the detection voltage, the inverted oscillation voltage, and the feedback voltage. The compensation voltage difference is applied to the first resistor. | 2022-01-06 |
20220006380 | DC/DC CONVERTER - A DC/DC converter includes a high-voltage side, a low-voltage side, a high-voltage side capacitor and a power conversion circuit. The high-voltage side includes a high-voltage positive terminal and a high-voltage negative terminal. The low-voltage side includes a low-voltage positive terminal and a low-voltage negative terminal. The low-voltage negative terminal is electrically connected with the high-voltage negative terminal A first terminal of the high-voltage side capacitor is electrically connected with the high-voltage positive terminal. A second terminal of the high-voltage side capacitor is electrically connected with the low-voltage positive terminal. The power conversion circuit is electrically connected between the high-voltage side and the low-voltage side. The power conversion circuit includes at least one switch and at least one magnetic assembly. | 2022-01-06 |
20220006381 | POWER SUPPLY DEVICE, ELECRONIC DEVICE AND POWER SUPPLY METHOD - A power supply device, an electronic apparatus, and a power supply method are provided. The power supply device comprises a first buck circuit used to convert, if a single battery cell in N cells connected in series has a voltage lower than a shutdown voltage of an electronic apparatus, a total voltage of the N cells into a power supply voltage of the electronic apparatus, such that the power supply voltage is higher than or equal to the shutdown voltage, N being an integer greater than or equal to 2; and a first power supply channel used to supply power to a system of the electronic apparatus according to the power supply voltage. | 2022-01-06 |
20220006382 | Multi-Level DC-DC Converter - Multi-level DC-to-DC converter circuits and methods that permit a full range of output voltages, including near and at zone boundaries. Embodiments alternate among adjacent or near-by zones, operating in a first zone for a selected time and then in a second zone for a selected time. Embodiments may include a parallel capacitor voltage balancing circuit that connects a capacitor to a source voltage to charge that capacitor, or couples two or more capacitors together to transfer charge, all under the control of real-time capacitor voltage measurements. Embodiments may include a lossless voltage balancing solution where out-of-order state transitions are allowed, thus increasing or decreasing the voltage across specific capacitors to prevent voltage overstress on the converter main switches. Restrictions may be placed on the overall sequence of state transitions to reduce or avoid transition state toggling, allowing each capacitor an opportunity to have its voltage steered as necessary for balancing. | 2022-01-06 |
20220006383 | POWER SUPPLY, MOTOR DRIVER, BLOWER, COMPRESSOR, AND AIR CONDITIONER - A power supply includes: a converter circuit including boost circuits, the converter circuit boosting a voltage output from a power source; a current detector that detects a first current flowing between the power source and the converter circuit; current detectors that each detect a second current, the second current being a sum current of currents flowing in switching elements of the boost circuits; and overcurrent determiners that determine whether the second currents are overcurrent on the basis of detection values of the second currents. When a result of the determination made by corresponding one of the overcurrent determiners indicates overcurrent, the boost circuits stop operating. | 2022-01-06 |
20220006384 | POWER SUPPLY SYSTEM - A a more efficient power supply system comprises a rectifier, a low voltage inverter, and a low voltage actuator, the rectifier converting a mains AC voltage into a low input DC voltage, the low voltage inverter connected to the rectifier and converting the low input DC voltage into a low supply AC voltage, and the low voltage inverter connected to the low voltage actuator to supply the low voltage actuator with power via the low supply AC voltage. A DC-DC converter connected to the rectifier converts the low input DC voltage into an extra-low DC voltage. An extra-low voltage inverter connected to the DC-DC converter converts the extra-low DC voltage into an extra-low supply AC voltage. The extra-low voltage inverter connected to an extra-low voltage actuator supplies the extra-low voltage actuator with power via the extra-low supply AC voltage. | 2022-01-06 |
20220006385 | LOAD DRIVING DEVICE - A load driving device includes a flyback converter, the flyback converter including: a transformer including a primary coil to be connected to a power supply and a secondary coil to be connected to a load; and a switching element provided on a ground side of the primary coil, which controls a voltage to be applied to the primary coil. The load driving device is configured to generate a comparison voltage (V | 2022-01-06 |
20220006386 | INTERLEAVED MULTIPHASE CONVERTER WITH COUPLED INDUCTOR AND ACTIVE CLAMP CIRCUIT - Embodiments are disclosed of a multiphase converter that includes a main switch circuit, an active clamp circuit, a voltage multiplier cell, and an output capacitor. The main switch circuit includes a primary winding of a first coupled inductor; a primary winding of a second coupled inductor connected in parallel with the primary winding of the first coupled inductor and in parallel with an input voltage; a first switch connected between the primary winding of the first coupled inductor and the input voltage; and a second switch connected between the primary winding of the second coupled inductor and the input voltage. The active clamp circuit includes a third switch, a fourth switch, and a first capacitor. The voltage multiplier cell includes a secondary winding of the first coupled inductor, a secondary winding of the second coupled inductor, a second capacitor, a first diode, the first capacitor, and the third switch. | 2022-01-06 |
20220006387 | Phase-Shifted Full-Bridge Converter With Half-Current Multiplier Output And Control Method Thereof - A phase-shifted full-bridge converter and a control method thereof are disclosed. The proposed control method of a phase-shifted full-bridge converter, wherein the phase-shifted full-bridge converter includes a full-bridge switching circuit having a first and a second output terminals, a main transformer having a primary winding and coupled to the switching circuit, and an autotransformer having a primary winding and coupled to the main transformer, includes providing an induced common current flowing through the primary winding of the autotransformer; and causing the induced common current being reflected to the primary winding of the main transformer to cause a primary side current flowing through the primary winding of the main transformer to increase both slopes of a valid duty cycle and a dead-zone period such that the primary side current has a relatively lower transition level and a relatively shorter transition time. | 2022-01-06 |
20220006388 | ISOLATION TRANSFORMER, AND POWER CONVERSION DEVICE IN WHICH THE ISOLATION TRANSFORMER IS USED - The isolation transformer includes two kinds of winding, a high voltage side winding and a low voltage side winding, and the high voltage side winding and the low voltage side winding are formed in winding layers, wherein the high voltage side winding includes windings formed in multiple winding layers, a winding layer having a different number of turns exists in one or more kinds of the two kinds of winding among the windings formed in the multiple winding layers, winding layers wherein current flows in the same direction are stacked in such a way as not to be neighboring, and at least one of winding layers having the greatest number of turns is disposed as a layer other than an outermost layer. | 2022-01-06 |
20220006389 | VOLTAGE SWITCHING CIRCUIT AND POWER ADAPTER - Disclosed are a voltage switching circuit and a power adapter having the same. The voltage switching circuit comprises a first switching circuit having a first terminal receiving a first voltage from a first converter, and a second switching circuit having a first terminal receiving a second voltage from a second converter. Second terminals of the first and second switching circuits are electrically connected to form a switching terminal for outputting an output voltage. When the output voltage is required to be switched from the first voltage to the second voltage, the first switching circuit is controlled to be turned off and then the second switching circuit is controlled to be turned on, and when a voltage at the first terminal of the second switching circuit is higher than a preset voltage, the second converter is shut down or kept off. | 2022-01-06 |
20220006390 | ISOLATED MULTI-PHASE DC/DC CONVERTER WITH REDUCED QUANTITY OF BLOCKING CAPACITORS - The present disclosure provides an isolated multi-phase DC/DC converter with a reduced quantity of blocking capacitors. In one aspect, the converter includes a multi-phase transformer having a primary circuit and a secondary circuit magnetically coupled to the primary circuit, the primary circuit having a first quantity of terminals, and the secondary circuit having a second quantity of terminals; a third quantity of blocking capacitors, each being electrically connected in series to a respective one of the terminals of the primary circuit; and a fourth quantity of blocking capacitors, each being electrically connected in series to a respective one of the terminals of the secondary circuit. The third quantity is one less than the first quantity. The fourth quantity is one less than the second quantity. | 2022-01-06 |
20220006391 | POWER SYSTEM WITH AN ADD-ON POWER MODULE - In accordance with disclosed embodiments, a power conversion system and method are provided. The power conversion system comprises a main power source configured to deliver drive power to a load and an add-on power module. The add-on power module comprises an isolated DC/DC converter and a low voltage source coupled in series with a high voltage source. The add-on power module is coupled to the main power source and the load and configured to output boost power to the load. The power conversion system further comprises a controller coupled to the main power source and the add-on power module, wherein the controller is configured to: determine that the load requires power from the main power source, and if so, direct boost power from the add-on power module to the load; and direct drive power from the main power source to the load when boost power falls below a predetermined threshold. | 2022-01-06 |
20220006392 | FLYBACK CONVERTER AND SWITCHING CONTROLLER CIRCUIT AND CONTROL METHOD THEREOF - A flyback converter includes a power transformer, a primary side switch, a secondary side switch and a controller. A secondary side switching signal has an SR pulse for achieving synchronous rectification, and a ZVS pulse for achieving zero voltage switching. The ZVS pulse is enabled according to a first characteristic of a resonance waveform, whereas, a primary side switching signal is enabled according to a second characteristic of resonance waveform. When an output current increases, the primary side switching signal is disabled during an inhibition interval, such that primary side switching signal does not overlap with the ZVS pulse, thereby preventing the primary and secondary side switches from being both conductive simultaneously. The inhibition interval is correlated with a rising edge of the primary side switching signal in a previous switching period and a resonance period of the resonance waveform. | 2022-01-06 |
20220006393 | FLYBACK SWITCH CIRCUIT AND CONTROL METHOD THEREOF - A flyback switching circuit and control method thereof is disclosed, by setting a reference value greater than zero configured for controlling a turn-off time of a first transistor of the flyback switching circuit, a drain-source voltage of a main power transistor of the flyback switching circuit is consistent with the reference value greater than zero before the main power transistor is turned on, so that a turn-on power consumption of the main power transistor is reduced and a system efficiency is improved. | 2022-01-06 |
20220006394 | POWER MODULE - A power module includes a printed circuit board, a magnetic element, a secondary side switching circuit and at least two groups of external terminals. The magnetic element is disposed on the printed circuit board. The magnetic element includes at least one primary winding and plural secondary windings. The secondary side switching circuit includes a plurality of secondary switching units. Each secondary switching unit includes a plurality of switches connected in parallel. The switches of each secondary switching unit are evenly distributed on a first surface and a second surface of the printed circuit board. The switches of the secondary switching unit on the first surface and the second surface of the printed circuit board are at least partially overlapped with each other. The at least two groups of external terminals are disposed on the second surface of the printed circuit board, and electrically connected with the secondary side switching circuit. | 2022-01-06 |
20220006395 | FREQUENCY CONVERTER WITH REDUCED PRE-CHARGING TIME - A frequency converter includes a rectifier on an input side and a support capacitor downstream of the rectifier. Input-side phases of the rectifier feed the backup capacitor via multiple half-bridges of the rectifier. The half-bridges have active switching elements and the rectifier is designed as a recovery rectifier, The input-side phases are connected to grid-side phases of a multiphase supply grid via an upstream circuit. Each grid-side phase is connected to one of the input-side phases within the upstream circuit via a respective phase capacitor. A control facility controls the active switching elements when a first charge state of the support capacitor is reached and input-side phase voltages are applied to the input-side phases via the active switching elements. Voltages running in the opposite direction to the grid-side phase voltages are applied to the grid-side phases to which the input-side phases are connected via the phase capacitors. | 2022-01-06 |
20220006396 | SYSTEM FOR TRANSFERRING ELECTRICAL POWER TO AN ELECTRICAL LOAD - The invention describes a system ( | 2022-01-06 |
20220006397 | CONCENTRIC WIRE AND TUBE ELECTROSTATIC GENERATOR - A Static Electrostatic Generator (SEG) is disclosed which produces static charges at high voltage and low current. The SEG is capable of generating positive or negative charges on a metal sphere by reversing the polarity of a DC source. The conversion efficiency of the system is about 47% and its design is simple, lightweight, and easy to manufacture. The SEG is a static device and no mechanical movement is required to produce charges. Also, the design is easily scalable. | 2022-01-06 |
20220006398 | DRIVING CIRCUIT AND DRIVING METHOD - A driving circuit for driving a piezoelectric load, can include: an energy-storage capacitor; a first power stage circuit configured to convert an input voltage into a first voltage, and to store the first voltage in the energy-storage capacitor; a second power stage circuit configured to receive the first voltage to charge the piezoelectric load during a first operation interval of an operation period, such that a power supply voltage signal provided to the piezoelectric load in the first operation interval corresponds to a reference voltage in a first interval; and a discharging circuit configured to discharge the piezoelectric load during a second operation interval of the operation period, such that the power supply voltage signal in the second operation interval corresponds to the reference voltage in a second interval. | 2022-01-06 |
20220006399 | QUANTUM VACUUM FLUCTUATION DEVICES - Described herein are devices incorporating Casimir cavities, which modify the quantum vacuum mode distribution within the cavities. The Casimir cavities can drive charge carriers from or to an electronic device disposed adjacent to or contiguous with the Casimir cavity by modifying the quantum vacuum mode distribution incident on one side of the electronic device to be different from the quantum vacuum mode distribution incident on the other side of the electronic device. The electronic device can exhibit a structure that permits transport or capture of hot carriers in very short time intervals, such as in 1 picosecond or less. | 2022-01-06 |
20220006400 | METHOD FOR A NETWORK SYNCHRONIZATION OF A PERMANENTLY EXCITED THREE-PHASE MACHINE COMPRISING A SOFT STARTER WHICH COMPRISES THYRISTORS - A method is for a network synchronization of a permanently excited three-phase machine including a soft starter, including thyristors, and mechanical bypass contacts for bridging the thyristors in the network operation. The method includes generating a first control signal, to initiate switching the mechanical bypass contacts to become conductive, after a criterion is reached while running up the three-phase machine on the soft starter, a time at which the first control signal is generated representing actuation time of the bypass contacts; generating ignition pulses for the thyristors within a time period, running from the actuation time to a contact time of the bypass contacts, using a second control signal; and operating the three-phase machine in the network operation via the bypass contacts. Each ignition pulse for a thyristor is generated when a phase current measurement indicates that the current strength in the assigned phase has fallen below a threshold value. | 2022-01-06 |
20220006401 | CONTROL FOR AN ELECTROMAGNETIC HOLDING BRAKE - A control for an electromagnetic holding brake with a coil for releasing the holding brake and maintaining it in the released position, which requires a minimum brake coil voltage to maintain it in the re-leased position, having a DC-DC converter with an input and an output, the DC-DC converter being designed to convert a variable input voltage pre-sent at the input into a predetermined switch-on voltage provided at the output and a predetermined holding voltage provided at the output, the holding voltage corresponding to the minimum brake coil voltage, the DC-DC converter being designed to implement a 2-stage voltage control and, in a first stage, to maintain the switch-on voltage as a regulated DC voltage for a predetermined time, to downregulate the voltage from the switch-on voltage following a predetermined voltage curve to the holding voltage as regulated DC voltage, and to maintain it in a second stage. | 2022-01-06 |
20220006402 | DRIVE UNIT - A drive unit attached to a mobile entity is disclosed. The drive unit includes a motor, a first detector, and a controller. The first detector detects vehicle speed information regarding a vehicle speed of the mobile entity. The controller performs PWM control for the motor. The controller controls a duty cycle of a PWM signal in accordance with the vehicle speed information detected by the first detector. | 2022-01-06 |
20220006403 | MOTOR CONTROL DEVICE - A motor control device controls a current of a motor based on a torque command, the current being separated into a d-axis current and a q-axis current orthogonal to the d-axis current, the torque command being a target value of a torque of the motor. The motor control device includes a current vector controller that receives input of a d-axis current command and a q-axis current command, and generates a d-axis voltage command and a q-axis voltage command, a difference between a value of the d-axis current and a value of the d-axis current command being zero, a difference between a value of the q-axis current and a value of the q-axis current command being zero, a q-axis current command generator that generates the q-axis current command based on the torque command, a magnetic-flux weakening controller that generates the d-axis current command based on a difference between a voltage command and a reference voltage, the voltage command being a vector with the d-axis voltage command output from the current vector controller as a d-axis component and the q-axis voltage command as a q-axis component, an amplitude of the voltage command not exceeding the reference voltage, a current limiter that limits a magnitude of the d-axis current command according to a magnitude of the q-axis current command, the d-axis current command being a d-axis component of a current command vector of the motor, the q-axis current command being a q-axis component of the current command vector of the motor, a magnitude of the current command vector of the motor not exceeding a current limit value, and a reference voltage correction unit that corrects the reference voltage based on a difference between a value of the d-axis current command before limitation and a value of the d-axis current command after the limitation. | 2022-01-06 |
20220006404 | MEMORY MOTOR WINDING MULTIPLEXING CONTROL METHOD AND SYSTEM FOR FLUX LINKAGE OBSERVATION - A memory motor winding multiplexing control method and system for flux linkage observation. The method comprises the following steps: I: when the magnetization state of a memory motor needs to be adjusted, selecting a flux regulation current reference value according to a rotation speed of the motor; II: by means of current feedback control, driving a direct-current flux regulation winding to generate a flux regulation current so as to adjust the magnetization state of a permanent magnet; III: when the memory motor is operating normally, collecting an induction voltage of the flux regulation winding and extracting an induced electromotive force of the flux regulation winding; and IV: using the induced electromotive force of the flux regulation winding to calculate the flux linkage of the permanent magnet for vector control of the motor. | 2022-01-06 |
20220006405 | METHOD AND DEVICE FOR LIMITING SETPOINT VALVES FOR FIELD-ORIENTED CURRENT REGULATION - The invention relates to field-oriented current regulation for a permanent magnet synchronous machine ( | 2022-01-06 |
20220006406 | POWER TOOL - A power tool includes a motor, a power supply device, a driver circuit, a parameter acquisition module, and a controller. The motor includes a stator and a rotor. The motor is configured to generate a reluctance torque. The driver circuit is electrically connected to the motor to drive the motor. The parameter acquisition module is configured to acquire a current of the motor, a rotational speed of the motor, and a position of the rotor. The controller is configured to: according to at least one of the current of the motor, the rotational speed of the motor, or the position of the rotor, dynamically adjust a current applied to the stator so that an included angle between a stator flux linkage of the motor and a rotor flux linkage of the motor ranges from 90° to 135°. | 2022-01-06 |
20220006407 | SYSTEMS AND METHODS OF DISTRIBUTED AND DYNAMICALLY CONFIGURABLE MOTOR CONTROL - Techniques for managing a distributed control system for a motor control switch are described. A request to implement a first controller for a motor control switch is received. Embodiments determine a plurality of functional modules for the first controller. Each of the plurality of functional modules comprises an instance of computer logic configured to perform a respective function. A respective Motor Control Function Set (MCFS) for performing the respective function of each of the plurality of functional modules is determined. One or more of a plurality of configurable hardware blocks are allocated to each of the plurality of functional modules. Embodiments configure each of the plurality of configurable hardware blocks based on the MCFS of the functional module to which the respective configurable hardware block is allocated. The configured plurality of configurable hardware blocks is executed as a distributed system to control the motor control switch. | 2022-01-06 |
20220006408 | MOTOR DRIVE APPARATUS AND COOLING APPARATUS - A motor drive apparatus includes a motor, a power converter, and a controller that controls the voltage supplied to the motor by the power converter. The power converter converts a voltage of a 400 V-class AC power supply to a voltage with an effective value lower than an effective value of the 400 V-class AC power supply. The power converter converts the voltage by a switching operation of a plurality of switching elements. The motor is configured so that a value of φ×Vx/Ld is greater than Pmax when an effective value voltage Vx=200 V. A d-axis inductance of the motor is Ld. A flux linkage of the motor is φ. A maximum output of the motor in a device where the motor is mounted is Pmax. The controller has a control mode in which an effective value voltage higher than Vx is applied to the motor. | 2022-01-06 |
20220006409 | HAPTIC INTERFACE - An interface with haptic force feedback, including a controller arranged and/or programmed to receive an initial command designed to control an actuator so that a force exerted by the actuator is equal to an initial low-frequency part F0(t) plus an optional high-frequency part; the initial command transformed into a command in which the initial low-frequency part F0(t) is transformed into a modified low-frequency part F(t) which follows in amplitude a decreasing function and for which, over any time interval of duration Δt between an instant t and an instant t+Δt, the modified low-frequency part F(t) decreases by a value X of less than or equal to 10% of the initial value of the modified low-frequency part of the force F(t) at the instant t, the duration Δt of the time interval being greater than or equal to 0.3 second; control the actuator according to the transformed command. | 2022-01-06 |
20220006410 | MOTOR DRIVING APPARATUS, REFRIGERATION CYCLE SYSTEM, AIR CONDITIONER, WATER HEATER, AND REFRIGERATOR - The motor driving apparatus includes a switch that is a mechanical switch for changing coil connection states of a motor; an inverter that generates alternating voltage from direct voltage and outputs the alternating voltage to the motor; and a control device that controls the switch and the inverter. The control device causes the switch to change the coil connection states while the alternating voltage output from the inverter is zero. | 2022-01-06 |
20220006411 | ROTARY MACHINE DRIVING SYSTEM AND VEHICLE - A rotary machine driving system includes: a rotary machine including a plurality of coils; an inverter device configured to operate the rotary machine at a variable speed, including a control device for controlling power conversion by an inverter circuit, and a coil switching device for switching a connection of the coils according to the control device. The control device commands the coil switching device to switch the connection of the coils when rotation of the rotary machine transitions between a low-speed rotation range and a high-speed rotation range due to acceleration and deceleration. A starting end and a terminal end of at least one set of coils per phase of the rotary machine are drawn out in a freely connectable state. The coil switching device includes at least one movable portion driven by one actuator. | 2022-01-06 |