46th week of 2021 patent applcation highlights part 68 |
Patent application number | Title | Published |
20210359545 | CAMERA WITH REDUCED IMAGE NOISE RESULTING FROM WIRELESS CHARGING - An example method includes receiving, by a mobile computing device, electrical power via a wireless charging link between the mobile computing device and a wireless charging device; and responsive to an activation state of a camera of the mobile computing device, selectively adjusting, by the mobile computing device, one or more parameters of the wireless charging link, wherein wireless charging via the wireless charging link with the adjusted one or more parameters generates less noise in images captured by the camera while the mobile computing device receives electrical power via the wireless charging link than wireless charging with unadjusted one or more parameters. | 2021-11-18 |
20210359546 | CHARGING SYSTEM AND CHARGING METHOD FOR AUTOMATIC FORCE DETECTION ROBOT FOR GAS PIPELINE - The present disclosure relates to a charging system and a charging method for an automatic force detection robot for a gas pipeline. The charging system includes a primary charging unit disposed outside the gas pipeline and a secondary charging unit disposed in the gas pipeline, wherein the primary charging unit includes a primary magnetic core and a primary coil wound on the primary magnetic core, the secondary charging unit includes a secondary magnetic core and a secondary coil wound on the secondary magnetic core, the primary magnetic core and the secondary magnetic core form a closed magnetic field line, the primary coil is connected to a power supply, and the secondary coil is connected to a battery of the robot. The charging system has the advantages of simple structure, low cost, convenient use, strong anti-interference capability and high charging efficiency, solves the problem that the cableless automatic force detection robot needs to overcome the shielding of the pipeline wall when charging, and improves the capability of the cableless automatic force detection robot when carrying out a long-distance detection in the pipeline. The charging method has the advantages of easy implementation, convenient operation, safety and reliability, and high charging efficiency. | 2021-11-18 |
20210359547 | Stationary Part For An Inductive Power Transfer Pad - A stationary part for an inductive power transfer pad that, in an embodiment, comprises: an electronic section including an electronic housing; a receiving section for a movable part of the inductive power transfer pad; a cooling channel predominantly or solely running through the receiving section and having a first end and a second end both being connected to an interior of the electronic housing; a first fan placed within the cooling channel or at the first or second end, or beneath the first or second end of the cooling channel, wherein, when the fan is operating, air from the interior of the electronic housing can be transported through the cooling channel, heat can be transferred from the air to a structural member of the receiving section so that the air cools down, and cooled-down air can be transported back to the interior of the housing. | 2021-11-18 |
20210359548 | SYSTEM, APPARATUS AND METHOD FOR SUPPLYING ELECTRIC POWER, APPARATUS AND METHOD FOR RECEIVING ELECTRIC POWER, STORAGE MEDIUM AND PROGRAM - An electric power supply system includes an electric power reception apparatus and an electric power supply apparatus adapted to supply electric power to the electric power reception apparatus when the electric power reception apparatus is placed on the electric power supply apparatus. The electric power supply apparatus includes a plurality of electric power supply units adapted to supply electric power by electromagnetic induction to the electric power reception apparatus. A selection unit of the electric power supply apparatus selects, from the total plurality of electric power supply units, a plurality of electric power supply units whose location corresponds to a position where the electric power reception apparatus is placed, and a control unit controls the supply of electric power such that electric power is supplied to the electric power reception apparatus from the selected plurality of electric power supply units. | 2021-11-18 |
20210359549 | INDUCTION CHARGING FOR A PORTABLE ELECTRONIC DEVICE WITH A GRIP ATTACHMENT - Induction charging devices and methods are disclosed for a portable electronic device that has a reception coil coupled to a power source and an outwardly projecting attachment mounted thereon. In some implementations, the devices include a housing having a wall with an outwardly facing charging surface and a recess sized to receive the attachment with the portable electronic device disposed on the charging surface. In some implementations, devices can include an attachment device coupled to a rear of a housing that can releasably secure to a portion of a vehicle and a mount coupled to a front of the housing. A charging assembly within the housing can include a transmission coil disposed so that with the recess or mount receiving the attachment therein, the transmission and reception coils are sufficiently aligned to charge the power source of the portable electronic device. | 2021-11-18 |
20210359550 | INDUCTIVE POWER AND DATA TRANSFER USING ENERGY INJECTION - A wireless power transfer secondary or pick-up has a resonant circuit and a switch connected to the resonant circuit operable to produce a phase shift in an oscillating voltage or current in the resonant circuit. A controller is configured to operate the switch to introduce one or more controlled phase shifts in the oscillating voltage or current in the resonant circuit which encode data for detection by a coupled circuit. | 2021-11-18 |
20210359551 | PARALLEL TUNED AMPLIFIERS - The disclosed technology provides a system for transmitting wireless power for charging electronic devices, e.g., smartphones, medical appliances, industrial equipment, and robotics. Some embodiments include parallel tuned resonant LC networks, load networks, and impedance matching networks for Class D and E, single-ended or differential, amplifier topologies for wireless power transfer in resonant inductive systems. | 2021-11-18 |
20210359552 | High Voltage Hybrid Charging System and Method - A method includes configuring a high voltage charging system to operate in a wireless charging mode to charge a battery after a power source has been disconnected from the high voltage charging system, wherein the high voltage charging system comprises a rectifier, a first power converter, a second power converter connected in cascade, and a load switch connected between a voltage bus and a power port configured to be connected to the power source, and configuring the high voltage charging system to operate in a wired charging mode to charge the battery after the power source has been connected to the high voltage charging system. | 2021-11-18 |
20210359553 | Simplified Wireless Power Receiver Architecture - Systems, methods, and apparatuses for receiving wireless power using a wireless power receiver client architecture are disclosed. A simplified wireless power receiver apparatus includes an energy storage device and a radio frequency (RF) transceiver including an antenna. Energy harvester circuitry is coupled to the energy storage device and the RF transceiver, and control circuitry is coupled to the energy storage device, the RF transceiver, and the energy harvester. The control circuitry causes the RF transceiver to: establish a connection with a wireless power transmitter (WPT), transmit a beacon signal to the WPT, and receive a wireless power signal from the WPT. The control circuitry causes the energy harvester to deliver at least a portion of energy of the wireless power signal to the energy storage device for storage therein. In some embodiments, a single antenna is utilized both for transmitting the beacon signal and for receiving the wireless power signal. | 2021-11-18 |
20210359554 | POWER TRANSMITTING APPARATUS, METHOD OF CONTROLLING THE SAME, AND POWER TRANSMISSION SYSTEM - Foreign substance detection can be performed with a simple configuration in a power transmission system. A power transmitting apparatus that wirelessly transmits power to a power receiving apparatus, the power transmitting apparatus comprises: determination means for, in a case where an initial impedance value and the detected output impedance value do not match and there is no change in the output impedance value between before and after the transmission of a predetermined detection signal, determining that a foreign substance is present within a predetermined power transmission range, and, in a case where the initial impedance value and the detected output impedance value do not match and there is a change in the output impedance value between before and after the transmission of the predetermined detection signal, determining that a power receiving apparatus is present within the predetermined power transmission range. | 2021-11-18 |
20210359555 | SYSTEM, METHOD, AND APPARATUS FOR WIRELESS CHARGING - Using inductive currents to wirelessly charge a device via a device connected to a power source. This inductive charging may result when a first mobile device recognizes a second mobile device via a wireless connection (e.g., Bluetooth, Bluetooth Low Energy (BLE), Near-Field Communication (NFC), or the like). An application stored on the first mobile device may recognize a second mobile device by transmitting an advertising packet when the first mobile device is connected to a power source. An advertising packet may be received by the second mobile device and the second mobile device may transmit a response to the advertising packet in order to generate a connection between the first and second mobile devices. The response may include data such as, connection strength, response time, connection preferences, and the like. Upon detection and connection, the second mobile device may be wirelessly charged by the first device via inductive charging. | 2021-11-18 |
20210359556 | Detection of Object Location and Orientation on a Wireless Charge Mat - A wireless charging mat and method of operating the same. The wireless charging mat includes a detection system configured to determine a location and an orientation of an electronic device on the wireless charging mat. The location and orientation are determined based on detected locations of one or more structural features of the electronic device. The wireless charging mat is operated according to the detected location and orientation. | 2021-11-18 |
20210359557 | STATOR OF MOTOR FOR AUTOMOBILE - A stator of a motor for an automobile includes a plurality of assemblies disposed in a curve shape to form a hole at a center of the stator. Each of the plurality of assemblies includes: a stator core; a bobbin surrounding an outer surface of the stator core; a coil being wound multiple times around the bobbin and connected to a lead-in line and a lead-out line disposed at both ends thereof, respectively; and a plurality of bus bars disposed on the bobbin. At least one of the plurality of the bus bars is connected to the lead-in line or the lead-out line. Some of the plurality of bus bars intersect each other. | 2021-11-18 |
20210359558 | ELECTRICAL MACHINE HAVING A SEGMENTED STATOR OR ROTOR - Provided is a stator for an electrical machine including a plurality of segments, wherein
| 2021-11-18 |
20210359559 | ELECTRIC MOTOR - An electric motor includes an armature and a mover. The armature includes an armature coil. The mover includes a plurality of pole blocks each including an iron core disposed to face the armature and a plurality of permanent magnets which surround the iron core such that a surface of the iron core, which faces the armature, is open. The plurality of permanent magnets in each pole block are disposed such that magnetic poles thereof facing the iron core are equal in polarity. | 2021-11-18 |
20210359560 | MOTOR - An embodiment relates to a motor comprising: a shaft; a rotor coupled to the shaft; and a stator disposed on the outside of the rotor, wherein the rotor includes a rotor core and a plurality of magnets disposed on the outer circumferential surface of the rotor core, wherein the rotor core includes a first region coupled to the shaft and a second region disposed on the outside of the first region, and wherein the upper or lower portion of the second region radially overlaps a bearing coupled to the shaft. Accordingly, the size of the motor can be reduced compared to the conventional art. | 2021-11-18 |
20210359561 | STAR DISK FOR A ROTOR OF AN EXTERNALLY EXCITED SYNCHRONOUS MACHINE - A star disk for a rotor of an externally excited synchronous machine, having a central disk body, from which multiple webs extend radially, at the ends of which an end plate is provided each time, so that between the disk body and the respective end plate there is formed a winding groove, being bounded by the web forming the groove bottom and laterally by the disk body and the end plate, forming groove flanks, and serving to contain a conductor winding led around the web and formed from a conductor wire which is wound in multiple layers, wherein the web is provided with flutes running in the winding direction and serving to contain a respective conductor wire segment, there being provided at least one additional flute on a groove flank at least on one side of the web. | 2021-11-18 |
20210359562 | STATOR AND MANUFACTURING METHOD OF THE SAME - A stator for a rotary electric machine includes a stator core, a stator winding, and a sensor unit. The stator has a hollow cylindrical shape and includes slots. The stator winding includes segment conductors respectively inserted in the slots. The sensor unit includes a sensor holding conductor, and a temperature sensor. The sensor holding conductor is welded to first and second segment conductors among the segment conductors. The temperature sensor is held by the sensor holding conductor. The sensor holding conductor includes first and second end portions, and a bent portion. The first end portion is welded to an end portion of the first segment conductor. The second end portion is welded to an end portion of the second segment conductor. The bent portion couples the first end portion and the second end portion to each other. The temperature sensor is held at an inner side of the bent portion. | 2021-11-18 |
20210359563 | MAGNETICALLY ACTIVE UNIT OF A ROTATING MULTIPHASE ELECTRIC MACHINE - A magnetically active unit of an electric machine with at least two poles includes a laminated core with slots, and at least one winding for each of the phases. The windings have an electric conductor which forms coil groups in the slots. The coils of the coil groups are formed with at least two sections of the electric conductors of at least one of the windings and are arranged so as to be electrically insulated from each other in the grooves. At least one first coil group of the coil groups of one of the windings has a first number of coils which deviates from a second number of coils of a second coil group of the coil groups of the same winding. | 2021-11-18 |
20210359564 | MODULATED LITZ WIRE CONSTRUCTION FOR HIGH POWER-DENSITY MOTORS - A modulated litz wire wherein the braid of a litz wire is varied along its length such that bulkier sections are located at the end-turns of a motor, while more compact parallel stranded sections are located in stator slots or magnetic gaps. Variations may include parallel stranded sections replaced with a longitudinal twist for improved handling or improved current sharing in strands. | 2021-11-18 |
20210359565 | A FAULT-TOLERANT MODULAR PERMANENT MAGNET ASSISTED SYNCHRONOUS RELUCTANCE MOTOR AND MODULAR WINDING DESIGN METHOD - The present invention relates to a fault-tolerant modular permanent magnet assisted synchronous reluctance motor (PMaSynRM) and provides a modular winding connection method. The modular winding connection is to change the positions of inlet and outlet coils based on the slot electrical potential star vectogram. Then, each module has a separate set of winding and the left and right relative distribution will be adopted on the winding connection. The invention has the advantages of modularization in structure, high independence between the modules, effectively avoiding overlapping of magnetic lines between the modules, and improving fault tolerance and reliability of the motor. The invention has the advantages of modularization in structure, high independence between the modules, magnetic decoupling between the modules, and improvement of fault tolerance and reliability of the motor. | 2021-11-18 |
20210359566 | STATOR AND MOTOR USING SAME - A stator includes a yoke, teeth connected to the yoke, and coils including plate-shaped conductive wire and mounted on respective teeth. Each coil includes a wound part, a first and second terminals. The wound part is wound around the tooth n turns (n is an integer equal to or greater than 2). The wound part satisfies a relationship represented by Ak2021-11-18 | |
20210359567 | Stator With Internal Connections For Winding Leads - An electric machine includes a stator assembly having a core with windings positioned on the core. The windings including in-slot portions, end turns, and leads. The leads include a plurality of inner leads extending from conductors in an inner layer of the slots and outer leads extending from conductors in an outer layer of the slots, the inner leads and the outer leads defining a semi-cylindrical space. The stator assembly further includes a bus bar assembly connected to the leads, the bus bar assembly including a plurality of series connections and a plurality of phase leads. Each of the series connections connects one of the inner leads to one of the outer leads within the semi-cylindrical space. Each of the phase leads connects at least one of the inner leads to at least one of the outer leads. | 2021-11-18 |
20210359568 | ROTARY ELECTRIC MACHINE AND STATOR THEREOF - A rotary electric machine includes a rotor and a stator. The stator has a coil end. The coil end has a plurality of lead wires. The plurality of lead wires have an inner lead wire with respect to the radial direction RD and an outer lead wire outside the inner lead wire with respect to the radial direction RD. The rotary electric machine includes a plurality of connection members. The inner lead wire and the outer lead wire are electrically and mechanically connected to the plurality of connection members. The plurality of connection members provide a heat transfer path from the inner lead wire. The inner lead wire and the outer lead wire demonstrate different vibration characteristics. | 2021-11-18 |
20210359569 | ROTOR FOR AN ELECTRIC MACHINE - A rotor for an electric machine has winding elements which are arranged in axially running grooves of a rotor body and having a winding head which is arranged axially next to the rotor body. The winding elements exit from the grooves in the axial direction in the region of the winding head and run in the axial direction in the region of the axial ends of the winding elements. Each of the winding elements has four curved portions in the region of the winding head. The rotor includes a plurality of tension bolts and a winding head carrier. The tension bolts connect the winding head to the winding head carrier and penetrate through the winding head radially. | 2021-11-18 |
20210359570 | BUSBAR UNIT FOR MOTOR - The present disclosure relates to a busbar unit for a motor, the busbar unit including: a holder having an inner circumferential surface on which crest portions and trough portions connected to the crest portions are formed; and a terminal coupled to the holder and including first terminal portions disposed on the crest portions, such that it is possible to obtain an advantageous effect of simplifying a structure and reducing costs. | 2021-11-18 |
20210359571 | MOTOR HOUSING WITH LEAK-FREE FLUID CHANNELS EMBEDDED THEREIN - The present invention relates to a motor housing comprising fluid channels, in which leak-free fluid channels are embedded in the longitudinal direction of the motor housing, wherein at least one of the leak-free fluid channels is provided as a cooling fluid channel through which a cooling fluid flows. | 2021-11-18 |
20210359572 | ELECTRIC MOTOR CONTACT ADAPTER - A housing may include a first end that may define a first aperture. The stator may be disposed in the housing and include a bus bar that may extend towards the first aperture. The contact adapter may be fixed to the first end of the housing and may include a base member and a contact member. The base member may define a contact aperture and may include a body and a collar that may extend from the body. The body and the collar may define a pocket and the contact aperture may be disposed in the pocket. The contact member may include a first end, a second end, and a medial portion extending therebetween. The first end may extend from the body into the pocket and may contact the bus bar. The second end may extend from the base member and may be configured to contact an electrical connector. | 2021-11-18 |
20210359573 | Multilayer Neutral Bus - A multiplayer neutral bus that includes a plurality of conductive layers and a plurality of bushings is provided. At least a portion of the conductive layers are spaced apart from each other and form separate electrical flow paths. The conductive layers and bushings are arranged so that each bushing is electrically coupled to each of the other bushings. A method of installing the neutral bus is provided. | 2021-11-18 |
20210359574 | Well Damped or Critically Damped Motor - A motor includes a housing, a stator assembly disposed in the housing, the stator assembly defining a rotor cavity extending through the housing, a rotor assembly including a rotor shaft extending along a longitudinal axis, two brackets connected to the housing, the two brackets disposed, one each, at either end of the rotor cavity, and two bearings disposed, one each, on each of the two brackets, wherein the two bearings rotatably support the rotor shaft within the housing. The rotor shaft is a stepped shaft that includes end portions disposed at either end of a core portion, the core portion includes channels extending in a direction parallel to the longitudinal axis, the channels extending radially at a depth into the core portion to define a core diameter such that the core diameter is less than the first diameter. | 2021-11-18 |
20210359575 | BRUSHLESS MOTOR HAVING AN OVERMOLDED ROTOR - An electric brushless DC motor is provided including a rotor assembly having a substantially-cylindrical metallic rotor body and at least one rotor magnet mounted on a surface of the rotor body, a stator assembly rotatably disposed relative to the rotor assembly, and a molded structure formed in contact with the rotor body. The molded structure includes a main body having a first axial end that engages at least one axial end of the at least one rotor magnet to axially retain the at least one rotor magnet on the surface of the rotor body and a second axial end that integrally forms a fan adjacent the rotor body. | 2021-11-18 |
20210359576 | WATER CHAMBER COVER FOR A WATER COOLING SYSTEM OF AN ELECTRIC MACHINE - A water chamber cover for connecting a water hose to a water chamber bottom plate of a directly water-cooled stator bar, having a peripheral groove, which is open on a side facing away from the water chamber and which is designed to hold the water hose. A method is for assembling a cooling water circuit for a directly water-cooled stator bar. | 2021-11-18 |
20210359577 | NEURAL NETWORK CIRCUITRY FOR MOTORS - An apparatus for driving a motor includes a plurality of neurons of neural network circuitry and motor circuitry. The plurality of neurons are configured to generate a cycle value based on a target speed, based on a speed value associated with the motor at a particular time, and based on a current value associated with the motor at the particular time. The plurality of neurons is configured to be trained to generate the cycle value to minimize an error between the cycle value and a training cycle value for each training vector of a plurality of training vectors. The apparatus is configured to have generated the plurality of training vectors. The motor circuitry is configured to control, based on the cycle value, a set of switching elements to drive the motor. | 2021-11-18 |
20210359578 | ROTOR, ASSEMBLY METHOD AND REPLACEMENT METHOD FOR INTEGRATED MAGNETIC POLE MODULES OF ROTOR, AND GENERATOR - The present application relates to a rotor, an assembly method and a replacement method for integrated magnetic pole modules of rotor, and a generator. The rotor includes: a rotor yoke having a mounting surface and an outer peripheral surface which are opposite to each other in a radial direction; multiple beads, which are distributed and spaced apart on the mounting surface along a circumferential direction of the rotor yoke, in which a radial distance between each bead and the mounting surface is adjustable; multiple integrated magnetic pole modules, each of which is detachably connected between two adjacent beads, and includes a carrier plate and multiple permanent magnets arranged on the carrier plate; and multiple fixing members, in which each of the beads is mounted to the mounting surface by the fixing members, and each of the fixing members has an operation portion that can protrude from the outer peripheral surface. | 2021-11-18 |
20210359579 | Stator of Rotary Electric Machine and Rotary Electric Machine Including Stator - An object of the present invention is to provide a stator of a rotary electric machine of which miniaturization, high output, and cost reduction are balanced at a higher level than the related art, and a rotary electric machine including the stator. Provided is a stator of a rotary electric machine in which a stator coil is wound around a stator core. The stator coil includes a welding portion of segment conductors formed in a region of an end portion of the stator coil; each of the segment conductors includes an exposed conductor wire portion in which an insulating coating formed on an outer periphery of a conductor wire is removed in a vicinity of the welding portion; the exposed conductor wire portion on at least one side of a pair of the segment conductors forming the each welding portion includes, in a longitudinal direction of the conductor wire, a root portion adjacent to the insulating coating, a transition portion for offsetting a center axis of the conductor wire in a radial direction by a predetermined amount of displacement; a bonding portion offset in a radial direction with respect to the root portion by a predetermined amount of displacement and a boundary portion between the root portion and the transition portion and a boundary portion between the transition portion and the bonding portion have pressing marks; and the predetermined amount of displacement is “1±0.4” times or “2±0.4” times a thickness of the insulating coating. | 2021-11-18 |
20210359580 | STATOR CORE SUPPORT DEVICE, AND METHOD OF SUPPORTING STATOR CORE - A stator core support device includes two support members that are radially opposed to a stator core such that a central axis of the stator core is interposed between the support members, and an inverting mechanism that inverts the two support members. Each of the support members has a radially opposed face that is radially opposed to the stator core, a first axially opposed face that is axially opposed to a first axial side of the stator core, and a second axially opposed face that is axially opposed to a second axial side of the stator core. While the inverting mechanism is inverting the two support members that hold the stator core, the stator core is moved in the axial direction relative to the two support members. | 2021-11-18 |
20210359581 | ELECTRICAL MACHINES, LAMINATIONS, AND METHODS OF MAKING THE SAME - An electrical machine stator can include a stator core having a stator core shape and made of a core material, a plurality of windings disposed in the stator core and made of a conductive material, and an insulative material surrounding the plurality of windings and configured to electrically insulate each winding from each other adjacent winding, and/or to insulate one or more of the windings from the stator core. The insulative material can be an amorphous metal. | 2021-11-18 |
20210359582 | VIBRATOR SUPPORT STRUCTURE, VIBRATION MOTOR, AND ELECTRONIC DEVICE - A vibrator support structure, a vibration motor including the vibrator support structure, and an electronic device including the vibration motor are provided. The vibrator support structure includes a housing, a vibrator, and a first support member. The vibrator is slidable in a first direction D | 2021-11-18 |
20210359583 | ELECTROMAGNETIC ACTUATOR AND VIBRATION GENERATOR INCLUDING THE SAME - An electromagnetic actuator including a coil; a non-movable part constituted by a magnetic substance and disposed on one side relative to the coil; and a movable part including a permanent magnet on the other side relative to the coil. Applying a current to the coil alternately generates first and third driving forces to move the magnet and the movable part to one and the other sides in a first direction relative to the coil and the non-movable part. As the movable part moves from a neutral position to the one side in the first direction, a portion of the magnet positioned on the one side in the first direction relative to the first end of the first non-movable part gradually enlarges and is magnetically attracted toward the non-movable part. As the movable part moves from the neutral position to the other side in the first direction, a portion of the magnet positioned on the other side in the first direction relative to the second end of the first non-movable part gradually enlarges and is magnetically attracted toward the non-movable part. | 2021-11-18 |
20210359584 | Vibration-based electric generation device - A system and method to harvest vibration-based energy for generation of electrical power employs a magnet that travels vertically within an axial chamber between a set of upper and lower coils of magnet wire. The magnet is supported by a spring structure specifically selected to allow the magnet to travel freely and equally vertically relative to the coils allowing the capture of energy for the generation of electrical power on both the original movement of the magnet relative to the coil and on the return movement resulting from spring load on the magnet. | 2021-11-18 |
20210359585 | METHODS OF ALTERING EDDY CURRENT INTERACTIONS - Described herein are braking mechanisms and related methods of using eddy current interactions to resist relative movement between members, the magnetic flux about an eddy current region being modified beyond an inherent drag effect resulting from a simple magnetic pole arrangement. | 2021-11-18 |
20210359586 | MAGNETIC LINE OF FORCE INERTIAL WHEEL AND MANUFACTURING METHOD THEREOF - A magnetic line of force inertial wheel and a manufacturing method thereof is disclosed, including a counterweight part made of a mixture of a weak magnetic cementing material and a strong magnetic high-density material, an isolate part made of at least one of a weak magnetic cementing material and a weak magnetic material, and a cut part made of a weak magnetic conductor; the isolate part is circumferentially fixed on a peripheral side wall of the counterweight part, and the cut part is circumferentially fixed on a peripheral side wall of the isolate part. Through the structural design of the isolate part, the inertial wheel prevents the brake pads may be prevented from being adsorbed on the wheel when the inertial wheel is braking, a better user experience can be present. | 2021-11-18 |
20210359587 | COAXIAL DOUBLE-ROTOR VARIABLE-SPEED ELECTROMAGNETIC DRIVE - A coaxial double-rotor variable-speed electromagnetic drive includes an external rotor, an end cover, a load shaft, a stator, and an internal rotor, the external rotor, the load shaft, the stator, and the internal rotor being coaxially arranged. The end cover includes a first end cover and a second end cover that are respectively disposed at two ends of the drive, the external rotor is slidably connected to the two end covers separately by bearings, the load shaft is slidably connected to the first end cover and the inner side of the external rotor separately by bearings, the stator is fixed on the inner side of the first end cover and disposed inside the external rotor, air gaps are kept separately between the stator and the internal rotor and between the stator and the external rotor, the internal rotor is sleeved on the load shaft and is disposed inside the stator. | 2021-11-18 |
20210359588 | POWER CONVERSION DEVICE - Each of a plurality of unit converters includes: a main circuit; a control circuit that controls the plurality of switching elements according to a control signal received from the controller; a power supply that lowers a voltage of a first capacitor to generate a power supply voltage and supplies the power supply voltage to the control circuit; and a current-limiting resistance circuit having a variable resistance value and disposed between the main circuit and the power supply. The power supply includes a second capacitor, an overcharge suppression circuit, a power supply circuit, and a controller. The controller includes: an overcharge suppression control circuit that controls the overcharge suppression circuit in accordance with a magnitude of a voltage of the second capacitor; and a resistance switching circuit that changes a resistance value of the current-limiting resistance circuit in accordance with a magnitude of a voltage of the first capacitor. | 2021-11-18 |
20210359589 | POWER CONVERSION DEVICE - A power supply includes a second capacitor, an overcharge suppression circuit, a power supply circuit, and a controller. The controller includes: an overcharge suppression control circuit that controls the overcharge suppression circuit in accordance with a magnitude of a voltage of the second capacitor; and a resistance switching circuit that changes a resistance value of the current-limiting resistance circuit depending on whether a gate block state occurs or not and in accordance with a magnitude of the voltage of the first capacitor. In the gate block state, each of the switching elements is fixed in a non-conductive state. | 2021-11-18 |
20210359590 | ADAPTIVE CONTROL FOR RECONFIGURING A POWER CONVERTER - In a power converter having a regulator and charge pump, both of which operate in plural modes, a controller receives information indicative of the power converter's operation and, based at least in part on said information, causes transitions between regulator modes and transitions between charge-pump modes. | 2021-11-18 |
20210359591 | DEVICE AND METHOD FOR DISCHARGING A DC LINK CAPACITOR, POWER CONVERTER AND VEHICLE - A device for discharging a DC link capacitor includes a discharge device which is connected in parallel with the DC link capacitor and by which, on receipt of a discharge signal requesting discharge, a current flow can be generated which, in the presence of a first signal state of a control signal, has a lower current intensity than in the presence of a second signal state of the control signal; a voltage detection device by which a voltage signal describing a capacitor voltage dropping across the intermediate circuit capacitor can be generated; and a control device with a signal generating unit which is arranged to generate a reference signal whose value at the time of receipt of the discharge signal is dependent on the voltage signal and is reduced relative to the voltage signal, and a comparison unit which is arranged to compare the voltage signal with the reference signal. | 2021-11-18 |
20210359592 | CONNECTION STRUCTURE OF SNUBBER CIRCUIT WITHIN SEMICONDUCTOR DEVICE AND POWER MODULE STRUCTURE USING SAME - A connection structure of a snubber circuit within a semiconductor device includes: a first substrate having a first electrode wiring line; a second substrate facing the first substrate, the second substrate having a second electrode wiring line facing the first electrode wiring line; and a stack ceramic capacitor having connection terminals provided on opposite ends, respectively, of the stack ceramic capacitor installed in an upright position in such a manner that entire surfaces of the connection terminals are connected to the first and second electrode wiring lines, respectively, where the stack ceramic capacitor is installed adjacent to a switching element attached on the first substrate, and the connection terminal and one electrode terminal on the switching element are connected with the first electrode wiring line interposed therebetween. | 2021-11-18 |
20210359593 | POWER CONVERSION DEVICE - A power conversion device includes a three-level inverter circuit and an inverter control circuit for driving the three-level inverter circuit in a double carrier modulation manner. The inverter control circuit includes a command value calculating part generating three-phase output voltage command values, a command value correcting part outputting corrected command values by correcting to the three-phase output voltage command value, and a gate signal generating part generating a gate signal based on the corrected command values. The command value correcting part is configured to output a predetermined voltage command value corresponding to an end of a dead band instead of one AC voltage command value, and distribute a difference between the one AC voltage command value and the predetermined voltage command value in the dead band passage period to other two AC voltage command values, during a dead band passage period. | 2021-11-18 |
20210359594 | MULTI-PHASE AC/DC CONVERTER - The present disclosure provides a three-phase AC/DC converter aiming for low input current harmonic. The converter includes an input stage for receiving a three-phase AC input voltage, an output stage for at least one load, and one or more switching conversion stages, each stage including a plurality of half bridge modules. The switches in each module operate with a substantially fixed 50% duty cycle and are connected in a specific pattern to couple a DC-link and a neutral node of the input voltage. The AC/DC converter further includes one or more controllers adapted to vary the switching frequency of the switches in the switching conversion stages based on at least one of load voltage, load current, input voltage, and DC-link voltage. The converter can also include one or more decoupling stages, such as, inductive components adapted to decouple the output stage from the switching conversion stages. | 2021-11-18 |
20210359595 | ELECTRICAL POWER CONVERTER - Electrical converters of the present disclosure feature a boost circuit that is fully integrated with a three phase bridge rectifier to allow for obtaining a pulsed voltage at the rectifier output. Actively switchable semiconductor switches of the boost circuit are controlled by pulse width modulation (PWM) control signals to obtain the pulsed voltage. PWM of this pulsed voltage allows control of two out of three currents at the three input terminals of the rectifier, i.e., the currents at the phase inputs having the highest and the lowest voltage levels of the three phase input voltage. | 2021-11-18 |
20210359596 | METHOD FOR REDUCING ELECTROMAGNETIC DISTURBANCES GENERATED DURING THE SWITCHING OF A TRANSISTOR INTO THE CONDUCTING STATE - Disclosed is a method for reducing the electromagnetic interference produced during the switching to the on state of a transistor for switching a quasi-resonant DC-DC voltage converter. The method includes the steps of: the transistor being initially controlled so as to be in the on state on the basis of a first control current, controlling the driving module by way of the control module so that the driving module switches the transistor to the off state at a first instant; and triggering the timer from the first instant, and, if the timer reaches a predefined duration threshold, controlling, by means of the driving module, the transistor so as to be in the on state on the basis of a second control current the intensity of which is lower than the intensity of the first control current. | 2021-11-18 |
20210359597 | DEVICE, METHOD, AND SYSTEM FOR RESOLVING COMMON-MODE VOLTAGE INTERFERENCE - A device for resolving common-mode voltage interference is applied to a power supply system including a power converter and a switch mechanism. Each phase of an output end of the power converter is connected to a downstream circuit by using the switch mechanism. The switch mechanism includes a first switch and a second switch. The device includes a controller and a passive component. Two ends of the first switch in at least one phase of the output end of the power converter are connected in parallel to the passive component, and the controller controls the second switch to be turned on, and when a voltage difference between the two ends of the first switch is less than a preset voltage, controls the first switch to be turned on. In this manner, the switch mechanism is protected, thereby prolonging a service life of the switch mechanism. | 2021-11-18 |
20210359598 | MULTI-MODE VOLTAGE PUMP AND CONTROL - A multi-mode voltage pump may be configured to select an operational mode based on a temperature of a semiconductor device. The selected mode for a range of temperature values may be determined based on process variations and operational differences caused by temperature changes. The different selected modes of operation of the multi-mode voltage pump may provide pumped voltage having different voltage magnitudes. For example, the multi-mode voltage pump may operate in a first mode that uses two stages to provide a first VPP voltage, a second mode that uses a single stage to provide a second VPP voltage, or a third mode that uses a mixture of a single stage and two stages to provide a third VPP voltage. The third VPP voltage may be between the first and second VPP voltages, with the first VPP voltage having the greatest magnitude. Control signal timing of circuitry of the multi-mode voltage pump may be based on an oscillator signal. | 2021-11-18 |
20210359599 | CHARGE PUMP CELL WITH IMPROVED LATCH-UP IMMUNITY AND CHARGE PUMPS INCLUDING THE SAME, AND RELATED SYSTEMS, METHODS AND DEVICES - A charge pump cell for a charge pump is disclosed that may exhibit improved latch-up immunity. A circuit may be arranged at the charge pump cell to apply a voltage to a bulk contact of a charge transfer transistor of such a charge pump cell at least partially responsive to a relationship between a voltage at a first terminal of the charge transfer transistor and a voltage at a second terminal of the charge transfer transistor. A charge pump including one or more such charge pump cells may include a control loop that is configured to control a pumping signal at least partially responsive to a state of an output voltage of the charge pump. | 2021-11-18 |
20210359600 | Electronic Control Unit - A drive circuit is controlled when power is interrupted. When power is turned off, a main power supply is switched to a sub-power supply, and a residual charge of a step-up circuit is lowered to a drive voltage of a drive circuit using a step-down circuit is used as the sub-power supply. | 2021-11-18 |
20210359601 | VOLTAGE CONVERSION CIRCUIT, SOLID-STATE IMAGING ELEMENT, AND METHOD OF CONTROLLING VOLTAGE CONVERSION CIRCUIT - Noise is reduced in a circuit that converts voltage. A voltage conversion circuit includes a conversion transistor, a current source transistor, and a control circuit. In this voltage conversion circuit, the conversion transistor converts a potential of an input signal, the potential being changed from one of two different potentials to the other, by using predetermined current, and outputs the converted signal as an output signal. Furthermore, the current source transistor supplies the predetermined current. Then, in a case where the potential of the input signal is changed to the other potential, the control circuit stops supplying the predetermined current. | 2021-11-18 |
20210359602 | Voltage Converter With Loop Control - A voltage converter system includes a switch configured to operate in first and second states. Compensation circuitry is configured to provide: a certain reference voltage as a reference voltage when the switch has the second state; and a compensated reference voltage as the reference voltage when the switch has the first state. Control circuitry is configured to switch the switch between the first and second states based on the reference voltage and a feedback voltage generated based on an output voltage of the voltage converter system. | 2021-11-18 |
20210359603 | TRANSIENT RESPONSE CIRCUIT OF SWITCHING REGULATOR - The invention relates to a transient response circuit of a switching regulator comprising a voltage reduction module, a first acquisition module, a second acquisition module, a third acquisition module, a comparison module and a pulse width modulation module, wherein the comparison module compares a superposed signal of a flat-wave signal or a ramp signal and a feedback signal with an acquisition signal, and outputs a comparison signal; the second acquisition module outputs the ramp signal when the acquired output signal is greater than a preset value, otherwise outputs the flat-wave signal; or when the working current obtained from the main circuit is greater than a preset value, a ratio of the feedback signal output from the third acquisition module to the working current of the main circuit is 1, otherwise the ratio is less than 1. Technical solutions have the advantages of excellent transient response, quick response, and high reliability. | 2021-11-18 |
20210359604 | SYSTEMS AND METHODS TO REMOVE INPUT VOLTAGE DEPENDENCY IN A POWER CONVERTER - A system and method for generating a low supply voltage and a high supply voltage from an input voltage, wherein the dependency of the high supply voltage magnitude on the magnitude of the input voltage is removed and the resulting high supply voltage magnitude is a multiple of the low supply voltage magnitude. The low supply voltage and the high voltage may be implemented in a power converter of a communication system comprising a plurality of subscriber line interface circuits (SLICs). | 2021-11-18 |
20210359605 | Advanced Constant Off-Time Control for Four-Switch Buck-Boost Converter - An apparatus includes a first timer configured to determine a turn-off time of a first high-side switch of a buck-boost converter, and a second timer configured to determine a turn-off time of a second low-side switch of the buck-boost converter based on a comparison between a first signal and a second signal, the first signal being proportional to an input voltage of the buck-boost converter, and the second signal being generated based on a signal proportional to an output voltage of the buck-boost converter. | 2021-11-18 |
20210359606 | POWER CONVERSION CIRCUIT, POWER CONVERSION SYSTEM AND POWER CHIP - An apparatus includes a first group of switches connected in series, a second group of switches connected in series, a first flying capacitor between a first common node and a third common node of the first group of switches, a second flying capacitor between a first common node and a third common node of the second group of switches, wherein the first group of switches and the second group of switches are configured such that the apparatus operates in one of three operating modes including a bypass operating mode, a hybrid operating mode and a boost/buck operating mode. | 2021-11-18 |
20210359607 | POWER CONVERSION DEVICE - The power converter A | 2021-11-18 |
20210359608 | POWER CONVERTER, VEHICLE AND METHOD OF OPERATING A POWER CONVERTER - A power converter having a primary side and a secondary side galvanically isolated therefrom, includes a secondary-side functional unit operable in dependence on auxiliary information generated on the primary side, a primary-side voltage supply device arranged to provide a supply voltage, a power transmission device, which has a switching unit for switching the supply voltage and a transmission unit, which is set up to transmit the switched supply voltage to the secondary side, to convert the supply voltage into an operating voltage for the functional unit, a primary-side modulation device to provide a clock signal to the switching unit and to vary a frequency of the clock signal by the auxiliary information, and a secondary-side demodulation device arranged to generate at least one use signal representing the auxiliary information from a secondary voltage provided by the transmitter unit and to provide a use signal to the functional unit. | 2021-11-18 |
20210359609 | SWITCHED-MODE CONVERTER CONTROL - The present description concerns a method of controlling a converter including two H bridges ( | 2021-11-18 |
20210359610 | SWITCHED-MODE CONVERTER CONTROL - The present description concerns a method of controlling a converter including two H bridges ( | 2021-11-18 |
20210359611 | CONTROL METHOD FOR DC CONVERTER AND DC CONVERTER - The present disclosure provides a control method for a DC converter and a DC converter. the DC converter comprises a switching circuit, a sampling circuit, and a controller, the method comprising: acquiring a duty ratio of a Burst cycle according to an output reference signal and an output signal; acquiring a first number of switching cycles and a burst on time according to the duty ratio of the Burst cycle, a first preset value, and a switching period of the switching device; acquiring a Burst cycle value according to the burst on time and the duty ratio of the Burst cycle; and generating a driving signal according to the Burst cycle value, the first number of switching cycles, and the switching period. | 2021-11-18 |
20210359612 | DUAL MODE RESONANT CONVERTER, AND ASSOCIATED CONTROL CIRCUIT AND CONTROL METHOD THEREOF - A control circuit for a resonant converter has a communication interface, a memory, and a primary switching control circuit. The memory provides a frequency setting signal capable of being programmed through a communication interface, the primary switching control circuit provides a first control signal to control a high-side switch and a second control signal to control a low-side switch. When the resonant converter works in an open loop mode, a frequency of the first control signal and the second control signal is determined by the frequency setting signal, an on-time period of the high-side switch equals an on-time period of the low-side switch, less than half of a resonant period. | 2021-11-18 |
20210359613 | SWITCHED-MODE CONVERTER CONTROL - The present description concerns a method of controlling a converter ( | 2021-11-18 |
20210359614 | ASYMMETRIC POWER CONVERTER AND OPERATIONAL METHOD THEREOF - Asymmetric power converter includes an upper bridge switch, a lower bridge switch, a primary winding, a first secondary winding, a second secondary winding, a control circuit. The first secondary winding and the second secondary winding output a first output voltage and a second output voltage of a secondary side of the asymmetric power converter respectively, and voltage polarity of the first secondary winding is different from voltage polarity of the second secondary winding. The control circuit controls the lower bridge switch and the upper bridge switch according to the first output voltage and the second output voltage, respectively. | 2021-11-18 |
20210359615 | POWER CONVERTER ASSEMBLY WITH A LINE-COMMUTATED POWER CONVERTER AND METHOD FOR STARTING UP THE ASSEMBLY - A converter arrangement has a line-commutated converter with an AC voltage terminal to be connected to an AC voltage grid via at least one phase line. The converter arrangement has at least one switching module branch that is arranged in series in the at least one phase line and that includes a series connection of switching modules at whose terminals bipolar voltages that sum to give a branch voltage are in each case able to be generated. A bypass branch is arranged in a parallel connection to the switching module branch. At least one switching device is arranged in the bypass branch. The switching device includes activatable semiconductor switches that are connected in antiparallel. There is also described a method for starting up the converter arrangement. | 2021-11-18 |
20210359616 | CIRCUIT FOR SWITCHING AN AC VOLTAGE - The present invention relates to a circuit for switching an AC voltage. It contains an input terminal able to be connected to an AC voltage source, an output terminal able to be connected to a load impedance, and a first series circuit. This series circuit comprises a diode and a circuit for storing electrical charges. The series circuit has a first end connection that is connected to the input terminal and a second end connection that is connected to the output terminal. The circuit for switching an AC voltage furthermore contains a DC voltage source, which is connected to an electrical connection between the diode and the input terminal or to an electrical connection between the diode and the output terminal and is designed to impress a DC current in the diode. The circuit for switching an AC voltage finally contains a first switch that is connected to an electrical connection between the diode and the circuit for storing electrical charges at one terminal. The first switch is designed to switch between a switching state in which a potential dependent on a reference potential is present at the electrical connection between the diode and the circuit for storing electrical charges, and a switching state in which an electrical floating potential is present in the electrical connection between the diode and the circuit for storing electrical charges. | 2021-11-18 |
20210359617 | ELECTRICAL ASSEMBLY - There is provided an electrical assembly ( | 2021-11-18 |
20210359618 | SYSTEM INCLUDING A FIRST INVERTER AND A SECOND INVERTER, AND METHOD FOR OPERATING THE SYSTEM - In a system and method for operating a system, which includes a first inverter which feeds a first electric motor, and a second inverter which feeds a second electric motor, the DC-voltage side connection of the first inverter is connected to the DC-voltage side connection of a rectifier which is supplied from an electrical AC-voltage supply network, the DC-voltage side connection of the second inverter is connected to the DC-voltage side connection of the rectifier, in particular, the two DC-voltage side connections of the inverters are switched in parallel, and a controller is provided, in particular in the first inverter, which controls the current accepted and acquired by the first inverter at its DC-voltage side terminal toward a setpoint value in that the torque of the first electric motor fed by the first inverter is the controlled variable. | 2021-11-18 |
20210359619 | INTERLEAVED PARALLEL INVERTERS WITH INTEGRATED FILTER INDUCTOR AND INTERPHASE TRANSFORMER - A power electronics system, comprising a first inverter configured to receive DC power from a power source and a second inverter configured to receive DC power from the power source is provided. The system includes a first output inductor connected in series to an output of the first inverter, a second output inductor connected in series to an output of the second inverter, a coupling inductor configured to receive current from the first output inductor and the second output inductor, and an AC power output. | 2021-11-18 |
20210359620 | SEMICONDUCTOR UNIT, SEMICONDUCTOR DEVICE, BATTERY UNIT, AND VEHICLE - A semiconductor unit includes a semiconductor device, a controller, and a resistor. The semiconductor device includes a transistor arranged between a positive electrode of a battery and an inverter circuit electrically connected to the battery. The controller is connected to a control terminal of the transistor and configured to control the transistor. The resistor arranged between the control terminal and the controller. The controller controls the transistor so that when a current flowing to the transistor is greater than or equal to a threshold value, the transistor is deactivated. The resistor has a resistance value that is greater than or equal to 100Ω. | 2021-11-18 |
20210359621 | DRIVE SYSTEM WITH COMMON DC BUS - A system includes: a pre-charge circuit configured to produce direct current (DC) electrical power; a common DC bus; and a plurality of inverters, each inverter including: a local DC bus; a capacitor network connected to the local DC bus; an electrical network connected to the local DC bus, the electrical network configured to generate an alternating current (AC) drive signal; and a plurality of switching assemblies, each switching assembly being associated with one of the inverters, and each switching assembly configured to control whether the local DC bus and the capacitor network of the associated inverter are electrically connected to the common DC bus or to the pre-charge circuit. | 2021-11-18 |
20210359622 | CONTROLLER FOR DC TO AC CONVERSION DEVICE - A controller includes first and second setting sections. The first setting section sets a first duty-cycle, which is a percentage of a switch-on time period of a drive switch in one switching-cycle, by peak current-mode control to control a reactor current to be a current-command value generated based on an AC-voltage value. The second setting section sets a second duty-cycle, which is the percentage of the switch-on time period of the drive switch in one switching-cycle, by average-current-mode control to control an average value of the reactor current to be the current-command value. The controller operates the drive switch at the first duty-cycle when an absolute value of the AC-voltage value is equal to or more than a threshold less than an amplitude of the AC-voltage value, and operates the drive switch at the second duty-cycle when the absolute value of the AC-voltage value is less than the threshold. | 2021-11-18 |
20210359623 | METHODS OF FUEL CELL OPERATION WITH BI-DIRECTIONAL INVERTERS - A microgrid system includes first and second DC power sources electrically connected to respective first and second DC electrical power busses, a first uninterruptable power module electrically connected to the first DC electrical power bus and configured to be connected to an alternating current (AC) load, a second uninterruptable power module electrically connected to the second DC electrical power bus and configured to be connected to the AC load, a first bi-directional AC/DC inverter having a DC end and an AC end, where the first DC electrical power bus is connected to the DC end of the first bi-directional AC/DC inverter, a second bi-directional AC/DC inverter having DC and AC ends, where the second DC electrical power bus is connected to the DC end of the second bi-directional AC/DC inverter, and an AC electrical power bus electrically connected to the first and second bi-directional AC/DC inverters at their AC ends. | 2021-11-18 |
20210359624 | LINEAR DRIVE - The present invention relates to a linear drive, comprising: an actuator unit with at least one actuator; two guide elements and a movement element, wherein the movement element is displaceable along both guide elements by a movement generated by the actuator unit as a result of a stick-slip effect. In order to allow a more accurate displacement of the movement element in a compact design of the linear drive, according to the invention, the movement element can be brought into engagement with each of the two guide elements by means of static friction in order to be displaced along the two guide elements as a result of the stick-slip effect. | 2021-11-18 |
20210359625 | MOTOR CONTROL SYSTEM, ENCODER, AND SERVO MOTOR - A motor control system includes a motor, an encoder, and a controller including a controller transmitter configured to transmit a torque command to control the motor. The encoder includes a position detector configured to detect a rotational position of the motor, an encoder receiver configured to receive the torque command from the controller transmitter, first disturbance estimating circuitry configured to estimate a first disturbance torque based on the rotational position and the torque command, and an encoder transmitter configured to transmit the rotational position and the first disturbance torque to the controller. | 2021-11-18 |
20210359626 | POSITION SENSORLESS MOTOR CONTROL SYSTEM USING SINGLE CURRENT SENSOR AND MOTOR CONTROL METHOD OF THE SAME - A motor control system includes a reference current generator that generates a reference current based on a command, a motor voltage providing device that generates a phase voltage based on the reference current, a high frequency voltage, and a feedback current and provides a motor with the phase voltage, and a high frequency voltage generator that generates the high frequency voltage corresponding to a magnitude of voltage generated based on the reference current and the feedback current. | 2021-11-18 |
20210359627 | IMPROVED ELECTRIC MOTOR FOR VISCOUS PUMPING - An electric motor for viscous pumping, wherein the electric motor is a brushless DC motor configured to be driven by a low DC voltage of around 40-60 VDC, and includes: a rotor with permanent magnets; a stator with a stack of laminations and windings wound therearound; and a controller to provide electronic commutation of electric current flowing through the windings; wherein the windings and the stack of laminations are configured to handle at least 1 kW of continuous electric power from the controller, and the controller includes a feedback circuit including a rotation sensor coupled to the rotor and having an angular resolution of at least 1/500th of a revolution to allow the controller to control the torque generated by the electric motor to a corresponding extent. | 2021-11-18 |
20210359628 | METHOD, DEVICE FOR SUBSYNCHRONOUS OSCILLATION SUPPRESSION AND CONTROLLER FOR CONVERTER - A subsynchronous oscillation suppression method and an apparatus and a controller of a converter are provided in the present disclosure, the controller is for controlling the converter. The method includes: acquiring an electric energy fluctuation parameter generated by a subsynchronous oscillation of a power transmission system; acquiring a compensation parameter of a current setting for an active axis according to the electric energy fluctuation parameter; controlling the converter to suppress the subsynchronous oscillation according to the compensation parameter of the current setting for the active axis. | 2021-11-18 |
20210359629 | INVERTER CONTROL METHOD AND MOTOR CONTROL DEVICE - An inverter control method is a method for controlling an inverter that outputs an application voltage, which is a voltage to be applied to a motor that drives a load by using rotation of a shaft. The method includes: causing the inverter to output the application voltage having an amplitude smaller than a first maximum and causing the motor to rotate at a first speed and drive the load which is predetermined; and causing the inverter to output the application voltage having an amplitude of a second maximum and causing the motor to rotate at a second speed and drive the predetermined load. The first maximum is a possible maximum value of an amplitude of the application voltage when the motor drives the predetermined load at the first speed. The first speed is a maximum of a speed of rotation of the motor when the motor drives the predetermined load. The second maximum is a possible maximum value of the amplitude of the application voltage when the motor drives the predetermined load at the second speed. The second speed is lower than the first speed. | 2021-11-18 |
20210359630 | Method and Apparatus for Estimating Rotor Position of Motor, and Motor Control System - A method and apparatus for estimating a rotor position of a motor, and a motor control system. The method includes: obtaining a position error signal by injecting a high-frequency signal into a stator winding of the motor; obtaining a load parameter indicating a load of the motor, obtaining a direct-current component disturbance value according to the load parameter and a first preset relationship, obtaining a harmonic component disturbance value according to the load parameter and a second preset relationship, and obtaining an observer parameter value according to the load parameter and a third preset relationship; compensating the position error signal according to the direct-current component disturbance value and the harmonic component disturbance value to obtain a compensated position error signal; adjusting an observer parameter according to the observer parameter value, and adjusting the compensated position error signal through an adjusted observer to obtain the rotor position and a rotor speed. | 2021-11-18 |
20210359631 | ELECTRIC MOTOR POWER CONTROL SYSTEMS - A control system for an electric motor powered by a battery can be configured to receive an input power or torque command corresponding to a commanded power or torque. The control system can be configured to determine if the battery is capable of supplying and/or permitted to supply the commanded power or torque over a time period based on a state of charge (SOC) of the battery. The control system can be configured such that if the battery is capable of supplying and/or permitted to supply the commanded power or torque over the time period, the control system outputs the input power or torque command, and such that if the battery is not capable of supplying and/or not permitted to supply the commanded power or torque over the time period, the control system outputs an available maximum power or torque command corresponding to an available maximum power or torque over the time period that is less than the commanded power or torque. | 2021-11-18 |
20210359632 | DC BUS PRECHARGE SYSTEM - A precharge system for precharging a DC bus circuit includes a first input, first and second circuit branches, and a controller, where the first circuit branch includes a first contactor between the first input and an AC to DC converter, the second circuit branch has: a disconnect switch coupled to the first input; a variable frequency drive (VFD) with an AC input coupled to the disconnect switch; an inductor coupled to an AC output of the VFD; and a second contactor coupled to the inductor. The precharge VFD provides precise control of the precharge operation such as charging time, current limiting, short-circuit and ground fault protection, monitoring DC Bus capacitance and verifies the health of the shared DC bus circuit through startup diagnostic. The controller opens the first contactor and closes the second contactor and the disconnect switch in a first mode to precharge the DC bus circuit using the VFD, and in a second mode, the controller closes the first contactor and opens the second contactor and the disconnect switch. | 2021-11-18 |
20210359633 | MOTOR DRIVE CONTROL DEVICE, MOTOR DRIVE CONTROL SYSTEM AND FAN SYSTEM - A motor drive control device | 2021-11-18 |
20210359634 | MOTOR DRIVING APPARATUS AND AIR CONDITIONER USING THE SAME - A motor driving apparatus for driving a motor, the apparatus being connected to the motor by first, second, and third connection lines respectively corresponding to first, second, and third phases, the apparatus including: an inverter converting direct-current voltage into three-phase alternating-current voltage by using first, second, and third switching element pairs respectively connected to the first, second, and third connection lines, and outputting the three-phase alternating-current voltage to the motor; a voltage detection circuit detecting a first voltage based on a potential difference between a potential of the first connection line and a reference potential; and a control unit calculating a voltage value of the direct-current voltage based on the first voltage during a first period in which an upper-arm switching element of the first switching element pair is on, controlling operation of the inverter according to the voltage value, and changing the first period according to the voltage value. | 2021-11-18 |
20210359635 | ELECTRIC MOTOR CONTROL DEVICE - An electric motor control device includes an electronic control unit configured to perform switching control of a switching element of an inverter in PWM control mode when a modulation degree is less than a first predetermined value, perform switching control of the switching element in square wave control mode when the modulation degree is greater than or equal to a second predetermined value, and perform switching control of the switching element in intermediate control mode when the modulation degree is greater than or equal to the first predetermined value and less than the second predetermined value. The intermediate control mode uses a switching pattern in which, in a pulse pattern in the square wave control mode, a slit or a short pulse having the same width as the slit is formed according to whether a pulse is present at the time when a phase current crosses zero. | 2021-11-18 |
20210359636 | FREQUENCY CONVERTER MODULE - A frequency converter module includes a frequency control management module. An input port of the frequency conversion control management module is electrically connected to an input port of a power supply module. The power accuracy monitoring module includes an initial power measuring module, a power prediction correction module, and an actual power display storage module. An output port of the initial power measuring module is electrically connected to an input port of the power prediction correction module. An output port of the power prediction correction module is electrically connected to an input port of the actual power display storage module. | 2021-11-18 |
20210359637 | DEVICE FOR ATTACHING TO A NOISE BARRIER - A device is provided for vertically attaching to a wall, in particular to a noise barrier, including a frame and at least two tins which have solar panels and are provided on a front face of the frame, wherein at least two supporting projections, each with a bearing for supporting the frame, extend outwards from a rear face of the frame, the fins forming elongate frame struts. | 2021-11-18 |
20210359638 | SURFACE MOUNT ASSEMBLIES FOR A SOLAR PANEL SYSTEM - Surface mount assemblies for mounting to a solar panel frame to an installation surface are disclosed. In some embodiments, a base is coupled to a height-adjustable rail mount to slidably couple a track with a fastener assembly that includes of a fastener, spacer, and nut. In some embodiments, a base is coupled to a rail mount and positioned on a base plate to slidably couple to a surface track with a fastener assembly that includes a first fastener slidably coupled to a groove formed by the track, spacer, and second fastener. In some embodiments, a base is coupled to a rail mount for slidably coupling the rail to a height-adjustable base with a fastener. In some embodiments, a two-configuration, track-mounted, rectangular base is designed with a rectangular base having a pair of short-sided legs, a pair of long-sided legs, and a fastener for engaging outer surfaces of a track. | 2021-11-18 |
20210359639 | Systems And Methods For Providing Active Shade Mitigation For A Solar Module - A solar tracker includes a rotatable portion including a plurality of solar modules, at least a portion of each of the modules being arranged in a row and electrically coupled to each other in series to define at least one string. A motor is operatively coupled to the rotatable portion and configured to supply torque to the rotatable portion for rotating the rotatable portion about an axis. At least one electrical characteristic sensor and at least one controller are in operative communication with the motor and with the at least one electrical characteristic sensor. The at least one controller is configured to instruct the motor to supply torque to the rotatable portion in response to one or more signals received by the at least one controller from the at least one electrical characteristic sensor. A method of operating a solar tracking system is also disclosed. | 2021-11-18 |
20210359640 | MOUNTING BRACKET EXTENSION - An extension panel may include a mating surface shaped to interface with a back surface of a clamp that includes a mounting hole corresponding to a bolt slot in the back surface of the clamp to accommodate a single bolt passing through the extension panel and the clamp. The extension panel may also include a pair of flanges projecting outward from the mating surface and positioned to be on either side of the clamp. The extension panel may also include a flat top surface generally parallel and aligned linearly with another flat top surface of a flexible member. The extension flat top surface may be sized to be approximately a same width as the flexible member at a first end of the extension flat top surface proximate the mating surface and may flare out as the extension flat top surface extends away from the flexible member. | 2021-11-18 |
20210359641 | SOLAR CELL MODULE FOR MOTOR VEHICLE - A motor vehicle has an electric drive and a primary energy source for the electric drive. The vehicle also has a solar cell module for supplying the primary energy source. The solar cell module can be designed in such a manner that it can be moved to an expanded position while in use in order to increase its surface area, and then moved to a constricted position to reduce its size when not in use. The solar cell module is designed so that it can be rolled out, fanned out or erected in order to increase its surface area. | 2021-11-18 |
20210359642 | CABLE INTEGRATED SOLAR INVERTER - Systems for converting a standard direct current (DC) power from solar panels into a rectified DC power signal for further conversion into alternating current (AC) power are described herein. In some example embodiments, the systems may include distributed power converters and a grid interface unit connected by a trunk cable. In some example embodiments, the power converters may be embedded in the trunk cable. | 2021-11-18 |
20210359643 | CABLE HOLDER ASSEMBLIES FOR A SOLAR PANEL SYSTEM - Wire or cable holder assemblies employed in a solar power system are disclosed. In some embodiments, an assembly could include a cap and a base configured with channels. When the cap and the base are clamped to an object (e.g., a solar module frame), enclosures defined by the channels and a surface of the solar frame module are formed to hold cables. In some embodiments, an assembly could include a plunger with at least one leg and a base that includes a receptacle for receiving the plunger and a hook for holding electrical cables. A leg include a rack having teeth adapted to fall into notches or spaces formed by complementary teeth of a pawl found in the receptacle that forms a ratchet which permits insertion of the plunger into the receptacle but not an extraction. If extraction is desired, an external force may be applied to release the pawl. | 2021-11-18 |
20210359644 | SYSTEM AND METHOD FOR COOLING PHOTOVOLTAIC PANEL WITH ATMOSPHERIC WATER - An integrated photovoltaic (PV) panel-water sorption layer system that includes a PV panel having a front face that is configured to receive solar light for generating electrical current, and a back face that is opposite to the front face; and an atmospheric water harvesting device attached to the back face of the PV panel. The atmospheric water harvesting device is configured to cool down the PV panel by evaporating absorbed atmospheric water based on heat received from the PV panel. | 2021-11-18 |