50th week of 2019 patent applcation highlights part 55 |
Patent application number | Title | Published |
20190379207 | TRANSFORMERLESS POWER CONVERSION - A power system including a rectifier and an inverter. The rectifier has a plurality of phase input terminals and a plurality of rectifier output terminals that provide respective rectified outputs, rectifier circuitry that rectifies the signals on the phase input terminals to generate respective rectified outputs on the rectifier output terminals, a rectifier neutral to receive a power source neutral, and capacitors connected between the rectifier neutral and the rectifier output terminals. The inverter includes a respective plurality of inverter input terminals respectively connected to the rectifier output terminals, a plurality of inverter output terminals, and an inverter neutral. The rectifier neutral and the inverter neutral are coupled by a conductor to form a same neutral. | 2019-12-12 |
20190379208 | LOW VOLTAGE, LOW FREQUENCY, MULTI LEVEL POWER CONVERTER - A low voltage, low frequency multi-level power converter capable of power conversion is disclosed. The power converter may include a low voltage, low frequency circuit that includes a plurality of phase-shifting inverters in series; a plurality of low voltage source inputs, and a plurality of phase-shifting inverters in series. Each of the plurality of phase-shifting inverters may be configured to receive at least one of the plurality of low voltage source inputs; and generate at least one square wave output. A semi-sine wave output may be derived from the generated at least one square wave output. | 2019-12-12 |
20190379209 | METHOD AND SYSTEM FOR LOCATING THE SOURCE OF EVENTS IN POWER DISTRIBUTION SYSTEMS USING DISTRIBUTION-LEVEL PMU DATA - A method and system is disclosed for identifying a location of an event in a power distribution network. The method includes receiving voltage and current flowing downstream and upstream of the distribution feeder from at least two distribution-level phasor measurement units (PMUs) installed on a distribution feeder in the power distribution network; calculating changes in forward nodal voltages along the distribution feeder using measurements from at least one PMU of the at least two distribution-level PMUs; calculating changes in backward nodal voltages along the distribution feeder using the measurements from another PMU of the at least two distribution-level PMUs; comparing the calculated changes in the forward nodal voltages to the calculated changes in the backward nodal voltages; and determining the location of the event based on the comparison of the calculated changes of the forward nodal voltages to the calculated changes backward nodal voltages. | 2019-12-12 |
20190379210 | ELECTRICAL POWER DISTRIBUTOR AND METHOD FOR DISTRIBUTING ELECTRICAL POWER - A method of distributing electrical power in an electricity grid comprising an electrical distributor circuit having at least three terminals, wherein sources and sinks for electrical energy can be connected to the terminals, and wherein the three terminals are electrically connected together in such a way that an electric current can flow from each of the terminals to each of the other terminals. Each of the terminals has a respective power controller which is so adapted that in operation of the power distributor the electric power P(t) flowing by way of the respective terminal can be adjusted in dependence on time t. The control means is connected to each of the power controllers, and it calculates the electric power P(t) flowing by way of each of the terminals in dependence on the data received from the sources or sinks. | 2019-12-12 |
20190379211 | SWITCHING CONTROL CIRCUIT AND CONTROL METHOD - A switching control circuit for controlling a multi-channel switching circuit having switching circuits, input terminals coupled to input voltage signals, and an output terminal for providing an output voltage signal, can include: a logic control circuit configured to receive an external operation signal and a first single pulse signal, and to generate an enable signal, a trigger signal, and feedback control signals; a reference voltage regulation circuit configured to receive the enable signal, the trigger signal, and a maximum one of the input voltage signals, and to generate a reference voltage signal; and feedback circuits corresponding to the switching circuits, where the plurality of feedback circuits are configured to receive the feedback control signals, a minimum one of two input voltage signals that are participating in the switching operation, the reference voltage signal, and the output voltage signal, and to generate switching control signals for controlling the switching circuits. | 2019-12-12 |
20190379212 | METHOD FOR CHARGING BATTERY INCLUDED IN ROBOT AND APPARATUS THEREOF - A battery in a robot may be charged by a specific method. The method may include determining a battery charge amount to be charged to the battery based on an operation to be performed by the robot, determining a charging time for the battery based on the determined battery charge amount, determining a charging start time based on the charging time and a next operation start time of the robot, and starting charging of the battery at the charging start time. | 2019-12-12 |
20190379213 | BATTERY PACK - A battery pack includes at least two battery cells; a circuit board to control charging and discharging operations of the battery cells; and a connection tab electrically connected to the battery cells, extending towards the circuit board, and including a bent portion proximal to the battery cells and located within a battery area defined by the battery cells. A battery pack suitable for a compact type device is provided and a low-resistive design may be applied to the battery pack. | 2019-12-12 |
20190379214 | BATTERY MANAGEMENT SYSTEM - A method and apparatus are disclosed for a Battery Management System (BMS) for the controlling of the charging and discharging of a plurality of battery cells ( | 2019-12-12 |
20190379215 | VOLTAGE EQUALIZING DEVICE - A voltage equalizer includes: first, second, and third junction terminals respectively connected to a positive electrode of a first battery module, a positive electrode of a second battery module, and negative electrodes of the first and second battery modules; an equalizer circuit connected between the first and second junction terminals, and the equalizer forming a current path between the first and second junction terminals; a first indicator having a first displaying state that changes according to a voltage difference between the first and second junction terminals; a first comparator for outputting a first output voltage according to an input voltage that is input in proportion to a voltage between the first and third junction terminals; and a second indicator having a second displaying state that changes according to the first output voltage of the first comparator. | 2019-12-12 |
20190379216 | POWER MANAGEMENT METHOD AND ELECTRONIC DEVICE SUPPORTING SAME - Disclosed is an electronic device comprising: a housing; a seating portion formed inside the housing such that a first external electronic device and a second external electronic device are seated thereon; at least one interface that is electrically connected to the first external electronic device and to the second external electronic device and can transmit/receive power to/from the same; and a processor electrically connected to the at least one interface, wherein the processor acquires a first remaining time to use a first battery included in the first external electronic device connected through the at least one interface; the processor acquires a second remaining time to use a second battery included in the second external electronic device connected through the at least one interface; and the processor manages power of at least one of the first battery and the second battery such that the first remaining time to use the first battery and the second remaining time to use the second battery become substantially identical. Besides, various embodiments inferable from the specification are possible. | 2019-12-12 |
20190379217 | Battery Management Apparatus, and Battery Pack and Automobile Including Same - Disclosed is a battery management apparatus, which includes: a precharging unit having a plurality of switches, the precharging unit being connected to the first main relay in parallel and connected between the second main relay and the second charge/discharge terminal; a control unit configured to control the plurality of switches which causes an output voltage of the battery module to be converted into an AC voltage and applied to the first main relay or the second main relay; and a diagnosing unit configured to diagnose a failure of the first main relay based on a first both-end voltage value of the first main relay to which the AC voltage is applied or to diagnose a failure of the second main relay based on a second both-end voltage value of the second main relay to which the AC voltage is applied. | 2019-12-12 |
20190379218 | SYSTEM AND METHOD FOR AVOIDING DEPLETED BATTERY IN A PARKED VEHICLE - A vehicle electrical system has a battery monitor configured to measure battery current flowing from a vehicle battery and a power management controller receiving a measured battery current value from the battery monitor. A plurality of controller modules receives the current flowing from the vehicle battery, each controller module being coupled to the power management controller to exchange communication signals. The power management controller detects a key-off state wherein the plurality of controller modules are each configured to invoke a respective reduced-power mode. When the battery load exceeds a sleep threshold during the key-off state then the power management controller resets at least one of the modules to re-invoke the respective reduced-power mode. The resetting can involve cycling a status of an ignition signal from ON to OFF. | 2019-12-12 |
20190379219 | METHODS AND APPARATUS FOR EXTENDING DISCHARGE OVER-CURRENT TRIP TIME IN A BATTERY PROTECTION CIRCUIT - Methods and apparatus for extending discharge over-current trip time in a battery protection circuit are disclosed. The protection circuit includes a safety circuit that asserts a first discharge over-current indicator when the discharge current of the battery exceeds a first discharge over-current threshold corresponding to a sustained over-current limit, a delay circuit that applies an added delay to the assertion of the first discharge over-current indicator, and a short circuit detection circuit that asserts a second discharge over-current indicator, with no delay added, when the discharge current exceeds a second discharge over-current threshold corresponding to a cell-specific peak output current limit. The battery protection circuit includes a logic circuit configured to assert a discharge over-current control signal to disable the battery responsive to assertion of the first discharge over-current indicator or the second discharge over-current indicator. | 2019-12-12 |
20190379220 | POWER CONTROL DEVICE - Provided is a power control device, for a vehicle, that is excellent in efficient discharge of energy stored in a smoothing capacitor provided in the power control device. The level of an output voltage of a backup power supply unit for generating, from energy of the smoothing capacitor, drive power required for a discharge operation is switched so as to be equal to or higher than the level of the voltage of an auxiliary battery during the discharge operation. | 2019-12-12 |
20190379221 | Device And Method To Tether Charging Apparatus - Disclosed is a device for tethering together the various parts of portable electronic device battery charging apparatus. The device consists of a notched base and an elastic ring connected by a cord. The base is affixed to a standard AC-DC plug-in charging block by an adhesive strip. One end of a charging cord is fed through the device's elastic ring, which has an inner diameter no greater than the width of the charging cord. Because the diameter of the elastic ring is less than the prong-ends of the charging cord, it will not easily slip off. The charging cord is further secured by pushing a segment into the notch on the base. The notch is sized to squeeze the charging cord, thus holding it. In this way, a charging cord and charging block are tied together to prevent loss. | 2019-12-12 |
20190379222 | Mobile Device Charging and Docking Station - A multi-device charger with an integrated privacy station. The mobile device charger contains a plurality of power options for charging a mobile device. The privacy station of the mobile device charger provides a privacy cover, or shield for concealing a screen of the mobile device from view while the mobile device is charging in the apparatus. | 2019-12-12 |
20190379223 | SYSTEM FOR CHARGING BATTERIES USED IN CLOTHING - A system for charging batteries of clothing is provided. The system may include a body made of an electric insulation material. The body can be configured to receive a hanging loop of the clothing. The system may include first electrical contacts disposed on the body, and a wire at least partially disposed within the body. The wire may be configured to provide an electric current to the first electrical contacts. The system may include second electrical contacts disposed in the hanging loop of the clothing. The second electrical contacts may be configured to electrically connect to the battery of the clothing. The first electrical contacts may be configured to touch the second electrical contacts when the hanging loop is hung on the body. | 2019-12-12 |
20190379224 | INTELLIGENT SWITCH SYSTEM - A charging path switching circuit includes a first port, a second port, a path switch unit, and a conversion unit. The first port is connected to an external electronic device to obtain a first electrical signal. The second port is connected to an external power source to obtain a second electrical signal. The conversion unit is connected the path switch unit and converts the first electrical signal or the second electrical signal to a predetermined voltage. The path switch unit is connected to the first port and the second port. The path switch unit selects to connect to the first port or the second port, to obtain the first electrical signal or the second electrical signal according to the connection of the first and the second port. The path switch unit preferentially selects to obtain the second electrical signal from the second port. | 2019-12-12 |
20190379225 | MOBILE DISCHARGING DEVICE FOR AN ENERGY STORAGE DEVICE - A mobile discharging device for an energy storage device of an electric vehicle and to a method for operating the device. | 2019-12-12 |
20190379226 | GENERATING ELECTRIC POWER WITHIN VICINITY OF POWERLINES USING ELECTRIC FIELD AND ELECTRICAL PATHWAY TO GROUND - Apparatus for generating electric power within vicinity of powerlines using varying electric fields and an electrical pathway to ground are disclosed. Such apparatus preferably include, for example, UAVs, charging stations, and power strips mountable to a powerline transmission tower. Methods and systems utilizing such apparatus further are disclosed. The electrical pathway to ground may include an interface that is tethered to a UAV and that is dragged along a shield wire behind the UAV as the UAV travels along the powerlines. The electrical pathway to ground alternatively may include an electrical connection to a ground of a support structure of the powerlines when the apparatus is a power strip mounted to the support structure. | 2019-12-12 |
20190379227 | POWER CONTROL CIRCUIT AND POWER GENERATION SYSTEM INCLUDING THE SAME - A power control circuit includes a converter, a signal generation circuit, and control circuitry. The converter includes a switching circuit. The converter transforms an output voltage from a power generator. The signal generation circuit operates the switching circuit of the converter. The control circuitry changes an operation of the switching circuit. | 2019-12-12 |
20190379228 | CURRENT PROTECTION FOR BATTERY CHARGER - A device includes a battery current sense circuit configured to generate a battery current feedback voltage based on a current provided to a battery, a current regulation feedback loop configured to regulate the current provided to the battery based on the battery current feedback voltage and a configurable battery current reference voltage, and a precharge regulation feedback loop configured to regulate the current provided to the battery based on the battery current feedback voltage and a configurable precharge reference voltage. The device also includes a processor configured to set the battery current reference voltage to a first value and set the precharge current reference voltage to a second value. The first value is less than the second value during a transition state. | 2019-12-12 |
20190379229 | CHARGING APPARATUS CAPABLE OF REDUCING LOW-FREQUENCY LEAKAGE CURRENT - A charging apparatus capable of reducing low-frequency leakage current includes: a power factor correction converter including a switch, wherein the power factor correction converter converts an AC power inputted by an on/off control of the switch into a DC power by correcting a power factor of the AC power; a DC-DC converter changing a magnitude of voltage outputted from the power factor correction converter into a magnitude of voltage required by an energy storage device to be charged; a first duty controller determining a first duty value of the switch for outputting a voltage having a predetermined magnitude through the power factor correction converter based on a magnitude of a differential mode component of the AC power; and a second duty controller determining a second duty value of the switch for removing a common-mode component of the AC power based on the common-mode component. | 2019-12-12 |
20190379230 | INCREASING EFFICIENCY IN WIRELESS CHARGERS - Methods, systems, and apparatus for high-efficiency wireless charging are presented. The system can include a transmitter for generating a transmitted power signal and a receiver for converting the transmitted power signal to a DC signal for charging a battery. The receiver can include (i) an inductive coil, which generates an AC signal in the presence of the transmitted power signal, (ii) a conversion circuit, which converts the AC signal generated by the coil to a DC output signal, (iii) a charging circuit comprising one or more switched capacitors, which converts the DC output signal to a DC charging signal, and (iv) a controller, which measures a signal of the battery indicating a charge level of the battery. Based on determining that the relationship between the DC charging signal and the signal of the battery satisfies the predetermined criterion, the controller generates a control signal to adjust the AC signal. | 2019-12-12 |
20190379231 | INDUCTIVE CHARGING CONTROLLER - An inductive charging device can take the form of a game controller that is communicably coupled to a mobile device having a power source and has a retracted configuration and an extended configuration. The game controller can include a first control portion having one or more game controller inputs, a second control portion have one or more game controller inputs, and a charging unit coupleable to the first control portion and the second control portion. The charging unit can have a region that is sized and shaped to receive the mobile device, and an inductive charging apparatus, the inductive charging apparatus can be operable to selectively inductively charge the power source of the mobile device when the mobile device is received in the region. | 2019-12-12 |
20190379232 | WIRELESS CHARGING SYSTEM - A wearable device for wirelessly charging a chargeable device, the wearable device comprising: means for generating a magnetic field for wirelessly charging the chargeable device, wherein the magnetic field generating means comprises at least two transmit coils, each configured to generate a respective component of the magnetic field; and means for shaping the magnetic field, in dependence on at least one of a location, orientation and shape of the chargeable device, by configuring the respective magnetic field component generated by each transmit coil, whereby to optimize the magnetic field for charging the chargeable device. | 2019-12-12 |
20190379233 | BATTERY MANAGEMENT ARCHITECTURES FOR FLOW BATTERIES - Systems and methods for managing flow batteries utilize a battery management controller (BMC) coupled between a flow battery and a DC/DC converter, which is coupled to an electrical grid or a photovoltaic device via an inverter. The inverter converts an AC voltage to a first DC voltage and the DC/DC converter steps down the first DC voltage to a second DC voltage. The BMC includes a first power route, a second power route, and a current source converter coupled to the second power route. The BMC initializes the flow battery with a third DC voltage using the current source converter until a sensing circuit senses that the voltage of the flow battery has reached a predetermined voltage. The sensing circuit may include a capacitor, which has a small capacitance and is coupled across each cell of the flow battery, coupled in series between two resistors having very large resistances. | 2019-12-12 |
20190379234 | Battery Charging Management Method and Terminal - A battery charging management method and a terminal, where the method includes charging, by the terminal, a battery according to a first charging policy, where the first charging policy includes a first voltage and a first current for charging the battery obtaining, by the terminal, a battery capacity of the battery when the terminal fully charges the battery for N times, where N is a positive integer determining, by the terminal, a second charging policy based on the battery capacity, where the second charging policy includes a second voltage and a second current for charging the battery and charging, by the terminal, the battery according to the second charging policy. | 2019-12-12 |
20190379235 | CONTROL DEVICE FOR ELECTRIC MOTOR - The control device for an electric motor according to this application provides a battery voltage detecting part for detecting a battery voltage at the time of driving a motor driven by a battery, and a minimum voltage holding part for keeping the battery voltage above the predetermined voltage by reducing the consumption current of the electric motor when the battery voltage detected by the battery voltage detecting part falls below a predetermined voltage during driving of the electric motor, so that it is possible to suppress a reduction in battery voltage during driving at low cost, and it is possible to keep the battery voltage above the predetermined voltage. | 2019-12-12 |
20190379236 | ALTERNATOR CONTROL DEVICE - An alternator control device includes a battery state determination unit determining whether the state of a battery is a predetermined normal state, a vehicle speed determination unit determining whether the speed of a vehicle is within a predetermined low speed range, a position determination unit determining whether the position of the vehicle meets a predetermined positional condition, and an output voltage instruction unit gives an instruction relating to the output voltage of the alternator. The output voltage instruction unit gives an instruction to increase the output voltage of the alternator to a voltage that is greater than a reference voltage, if it is determined that the state of the battery is not the predetermined normal state, if it is determined that the speed of the vehicle is within the predetermined low speed range, and if it is determined that the position of the vehicle meets the positional condition. | 2019-12-12 |
20190379237 | Smart Outlet System with Fast Frequency Tracking for Power System Frequency Control Using Distributed Appliances - Systems and methods are disclosed to control the power grid frequency by capturing the frequency change using an extended Kalman filter method with the distributed smart outlet devices at the low-voltage distribution level; and locally control the relay that provides power to the appliance by comparing the captured frequency with the threshold sent from the cloud control center. | 2019-12-12 |
20190379238 | SYSTEM, METHOD, AND APPARATUS FOR ELECTRIC POWER GRID AND NETWORK MANAGEMENT OF GRID ELEMENTS - Systems, methods, and apparatus embodiments for electric power grid and network registration and management of active grid elements. Grid elements are transformed into active grid elements following initial registration of each grid element with the system, preferably through network-based communication between the grid elements and a coordinator, either in coordination with or outside of an IP-based communications network router. A multiplicity of active grid elements function in the grid for supply capacity, supply and/or load curtailment as supply or capacity. Also preferably, messaging is managed through a network by a Coordinator using IP messaging for communication with the grid elements, with the energy management system (EMS), and with the utilities, market participants, and/or grid operators. | 2019-12-12 |
20190379239 | Load Adaptive, Reconfigurable Active Rectifier for Multiple Input Multiple Output (MIMO) Implant Power Management - Many embodiments provide an implant power management unit (IPMU) that includes a reconfigurable active rectifier (AR) for wireless power transfer (WPT), where the AR is configurable to operate in a plurality of different modes of operation, an adaptive load control (ALC) unit that accommodates power delivery with load requirements, where the ALC unit is configured to control AR voltage based upon a desired value, control circuitry that is configured to enable a full bridge rectifier in a regular mode of operation of the AR, a feedback circuit that adaptively generates offset current to compensate for switch delays in at least one active NMOS diode, and a feedback circuit that adaptively generates offset current to compensate switch delays in at least one active PMOS diode. | 2019-12-12 |
20190379240 | PASSIVE WIRELESS POWER ADAPTER - A wireless power adapter uses a passive conversion circuit to convert an incompatible transmitter-receiver pair into a compatible transmitter-receiver pair. The wireless power adapter transfers power between a main transmitter and main receiver that are incompatible with each other. In one aspect, the wireless power adapter includes an auxiliary receiver coil system, a auxiliary transmitter coil system and a passive conversion circuit. The auxiliary receiver coil system is compatible with the main transmitter and can efficiently receive wireless power transmitted by the main transmitter that is external to the adapter. The auxiliary transmitter coil system is compatible with the main receiver and can produce wireless power to be efficiently transmitted to the main receiver. The passive conversion circuit connects the incompatible main transmitter and main receiver by transferring power from the auxiliary receiver coil system to the auxiliary transmitter coil system. | 2019-12-12 |
20190379241 | POWER TRANSMISSION APPARATUS AND POWER TRANSMISSION METHOD - A power transmitting unit is provided. The power transmitting unit includes a signal generator configured to generate a signal of a first frequency band for wireless charging, a power generation circuit configured to generate a modulation signal for modulating the signal of the first frequency band generated by the signal generator, and amplify a transmit power of the signal of the first frequency band based on voltage supplied from the outside of the power transmitting unit, a power transmission circuit configured to transmit the amplified transmit power to a power receiving unit via a first antenna, a second antenna configured to receive information about a charging state from the power receiving unit through a second frequency band, and a control circuit configured to control a duty and frequency of the modulation signal based on the charging state. | 2019-12-12 |
20190379242 | ELECTRONIC DEVICE AND METHOD FOR WIRELESS CHARGING IN ELECTRONIC DEVICE - An electronic device includes a controller to receive a signal from an external electronic device, and, based at least in part on the received signal, identify a wireless power scheme among at least two wireless power schemes. During the transmission mode, the controller controls the full bridge circuit to convert DC power to AC power based on a wireless power frequency corresponding to the identified wireless power scheme by controlling at least one transistor of the full bridge circuit, and controls to wirelessly transmit power based on the AC power to the external electronic device. During the reception mode, the controller controls to receive power from the external electronic device, controls the full bridge circuit to convert the received power to DC power by controlling transistors of the full bridge circuit, and controls to provide the converted DC power for the battery of the electronic device. | 2019-12-12 |
20190379243 | METHOD FOR DETECTING FOREIGN MATERIAL, AND DEVICE AND SYSTEM THEREFOR - A method for detecting a foreign object disposed in a charging area of a wireless power transmitter can include transmitting, by the wireless power transmitter, a power signal having a predetermined strength; measuring, via a controller, a peak frequency of the power signal; receiving, from a wireless power receiver, information about a reference peak frequency of the wireless power receiver; determining, via the controller, a threshold frequency based on the reference peak frequency; and determining, via the controller, whether the foreign object is present in the charging area based on a comparison of the measured peak frequency of the power signal with the determined threshold frequency. | 2019-12-12 |
20190379244 | Intruding metal detection method for induction type power supply system and related supplying-end module - An intruding metal detection method for a supplying-end module of an induction type power supply system having a supplying-end coil includes: obtaining a previous peak trigger voltage measured during a previous measurement period and setting a reference voltage to be equal to the previous peak trigger voltage; interrupting at least one driving signal of the induction type power supply system to stop driving the supplying-end coil during a measurement period, to generate a coil signal of the supplying-end coil; measuring a first peak of the coil signal within an oscillation cycle of the coil signal, to obtain a first peak trigger voltage; comparing the first peak trigger voltage with the reference voltage; and determining that there is no intruding metal existing in a power supply range of the induction type power supply system when the first peak trigger voltage is equal to or close to the reference voltage. | 2019-12-12 |
20190379245 | Device To-Be-Charged, Wireless Charging Apparatus, and Wireless Charging Method - A device to-be-charged, a wireless charging apparatus and method are provided. The apparatus includes: a voltage converting circuit, configured to receive an input voltage and convert the input voltage to obtain an output voltage and an output current of the voltage converting circuit; a wireless transmitting circuit, configured to transmit an electromagnetic signal according to the output voltage and the output current of the voltage converting circuit to conduct wireless charging on a device to-be-charged; and a first control circuit, configured for wireless communication with the device to-be-charged during the wireless charging to acquire an output voltage and/or an output current of a step-down circuit fed back by the device to-be-charged, and adjust the output voltage and/or the output current of the voltage converting circuit according to the output voltage and/or the output current of the step-down circuit to adjust a transmission power of the electromagnetic signal. | 2019-12-12 |
20190379246 | LAMINATE FOR USE IN CORE - Provided is a laminate having a reduced loss ratio while maintaining a high space factor. The present disclosure relates to a laminate for use in a core, comprising: a strip laminate composed of soft magnetic metal strips; and an insulating layer provided on a surface of the strip laminate, wherein each one layer of the soft magnetic metal strips has a thickness of 100 μm or less, each one layer of the soft magnetic metal strips has an oxide film on their surfaces, the strip laminate is composed of at least two layers of the soft magnetic metal strip, and the strip laminate and the insulating layer are alternately disposed. | 2019-12-12 |
20190379247 | PERMANENT MAGNET - A rotary electric machine that includes a rotor; and a permanent magnet, wherein: in an axially orthogonal section orthogonal to a rotational axis of the rotor in an attached state in which the permanent magnet is attached to the rotor, the permanent magnet has an uneven shape, in which both of two magnetic pole surfaces are repeatedly projected and recessed with a curvature that is larger than an average curvature of magnetic pole surfaces. | 2019-12-12 |
20190379248 | INTERIOR PERMANENT MAGNET MOTOR - An interior permanent magnet motor includes a stator provided with a plurality of slots and a rotor rotatably disposed inside the stator. A plurality of permanent magnets of the same polarity are disposed at equal intervals in a circumferential direction inside the rotor. A plurality of flux bathers are provided on left and right sides of one end of each of the plurality of permanent magnets adjacent to an outer circumferential surface of the rotor. A ratio of a number of slots of the stator to a number of magnetic poles of the rotor is 3:2 or 3:4. The number of permanent magnets provided in the rotor is ½ of the number of magnetic poles of the rotor. | 2019-12-12 |
20190379249 | ELECTRIC MOTOR FOR A POWER TOOL - An electric motor for use with a power tool includes a rotor having a body, a stator having a plurality of electromagnetic coils surrounding the rotor, an output shaft coupled to the rotor for rotation with the rotor, and a plurality of magnets positioned within the body of the rotor. The motor also includes a mechanical magnet holder coupled to at least one of the rotor and the output shaft to engage each of the plurality of magnets. The mechanical magnet holder inhibits movement of the plurality of magnets out of the body of the rotor. | 2019-12-12 |
20190379250 | ROTOR OF ROTARY ELECTRIC MACHINE - A rotor of a rotary electric machine includes a rotor core, magnets, and a rotor shaft. The rotor shaft includes a refrigerant passage, a refrigerant supply part provided on one side of the refrigerant passage and configured to supply the refrigerant from the rotor shaft to the rotor core, a refrigerant discharge part provided on the other side of the refrigerant passage and configured to return the refrigerant from the rotor core to the rotor shaft, and a passage partition part configured to block flow of the refrigerant between the one side and the other side of the refrigerant passage. The rotor core includes a plurality of heat exchange chambers having a circumferential length larger than a radial length, and the heat exchange chamber communicates with the refrigerant supply part on one side of the refrigerant passage and communicates with the refrigerant discharge part on the other side. | 2019-12-12 |
20190379251 | AC MACHINE WINDINGS - Various examples related to shifted fractional pitch wye-delta multilayer windings and their use in AC machines. In one example, a winding includes a first wye-delta winding with first wye and delta windings for each phase and a second wye-delta winding with second wye and delta windings for each phase. The first and second wye windings for each phase are connected in series and the first and second delta windings are connected in series, and formed wye and delta windings are connected in a wye-delta configuration thereby providing an electrical phase shift between the two windings. The windings are interdigitated to provide a physical shift between the first and second wye windings and the first and second delta windings. Such windings can be used in, e.g., permanent magnet synchronous machines, synchronous machines, reluctance machines, and induction machines. | 2019-12-12 |
20190379252 | ROTARY ELECTRIC MACHINE - In a rotary electric machine, each of teeth of a stator core is provided with a covering portion. The covering portion of each of the teeth is made of a soft magnetic material having a lower iron loss factor than each steel plate. The covering portion of each of the teeth covers at least a part of a surface of the corresponding one of the teeth. | 2019-12-12 |
20190379253 | ROTARY ELECTRIC MACHINE AND MANUFACTURING METHOD THEREOF - It is realized that a shape of a bus ring is simplified, and a rotary electric machine is downsized. A coil connecting portion, which is protruded from bus ring maintaining portions to a shaft direction, is provided at a bus ring, and coil terminals are arranged in such a way that the coil terminals are protruded toward an outer side in a diameter direction with respect to the coil connecting portion, and the coil terminals and the coil connecting portion are connected by performing a resistance welding process. Thereby, it is not required that a slit and a bent portion or the like are formed at a tip of the bus ring, and a shape of the bus ring is simplified. Moreover, a welding board for a welding process and a chuck board for a connecting portion are not required, so that a rotary electric machine can be downsized. | 2019-12-12 |
20190379254 | DRIVE, INCLUDING AN ELECTRIC MOTOR AND A TRANSMISSION, AND METHOD FOR PRODUCING A DRIVE - In a drive that includes an electric motor and a transmission, and a method for producing a drive, the housing of the transmission includes a housing part and a cover part, which are connected to each other. A bayonet guide region is arranged on the housing part. The electric motor includes a rotor shaft and a motor housing, and the rotor shaft is rotatably mounted in the motor housing with the aid of bearing(s). An adapter flange is connected to the motor housing in a torsion-resistant manner, the adapter flange including a lug region, in particular a bayonet nose, in particular for an engagement behind the bayonet guide region, the bayonet guide region projecting into a recess of the housing part. The recess is restricted in the circumferential direction by a holding fin provided on the housing part, which extends from a bearing receptacle of the bearing of the input shaft of the transmission, in particular in relation to the axial direction of the input shaft, in the radial direction, the recess, e.g., being restricted counter to the circumferential direction by a further holding fin provided on the housing part, which extends from a bearing receptacle of the bearing of the input shaft in the radial direction. | 2019-12-12 |
20190379255 | MOTOR AND DISK DRIVE DEVICE - A motor includes a shaft along a central axis, an inner ring fixed on an outer circumferential surface of the shaft, a tubular sleeve extending axially around the shaft, an outer ring fixed to an inner circumferential surface of the sleeve via an adhesive agent, a cap annularly expanding around the shaft and covering an axially upper side of the inner and outer rings, and a bearing portion including dynamic pressure grooves in at least one of an outer circumferential surface of the inner ring and the inner circumferential surface of the sleeve. In the bearing portion, a stationary portion and a rotating portion face each other across a gap where lubricating oil is present. At least one interface of the lubricating oil is in a radial gap between the inner and outer rings. The cap includes a recess recessed axially downward over an entire circumference. At least a portion of an outer circumferential surface of the recess portion is fixed by press-fitting to an inner circumferential surface of the sleeve. | 2019-12-12 |
20190379256 | FAN ARRANGEMENT WITH FAN AND TOOTHED RING, AND CONVERTER MOTOR WITH FAN ARRANGEMENT - A fan arrangement includes a fan and toothed ring, and a converter motor includes a fan arrangement. The fan includes a base body on which fan blades are premolded, and the fan includes an annular region, which is premolded on the side of the fan blades facing away from the base body. The toothed ring is situated within the annular region, and thus, in particular, is set apart from the base body, and thus, in particular, is set apart from the base body via the fan blades. | 2019-12-12 |
20190379257 | Electric Motor Having an Integrated Cooling system and Methods of Cooling an Electric Motor - The present disclosure pertains to electric machines such as electric propulsion systems for aircraft that integrated cooling systems, and methods of cooling such an electric machine. Exemplary electric machines include an electric motor that has a stator, a rotor, and a drive shaft operably coupled to the rotor. Exemplary electric machines further include a motor cooling conduit that defines a pathway for conveying a cooling fluid through or around at least a portion of the electric motor, a casing assembly that circumferentially surrounds at least a portion of the electric motor, a casing assembly conduit integrally formed within at least a portion of the casing assembly which defines a pathway for conveying the cooling fluid through the at least a portion of the casing assembly, and a pump or compressor operably coupled to the drive shaft and configured to circulate the cooling fluid through the motor cooling conduit and the casing assembly conduit. | 2019-12-12 |
20190379258 | BRUSHLESS MOTOR ASSEMBLY - A brushless motor assembly includes a motor body, a circuit board, and a heat sink. The circuit board has a mounting surface and includes a motor control unit and a power switch which are disposed on the mounting surface. The motor control unit is adapted to control an operation of the power switch. The heat sink is disposed between the motor body and the circuit board, wherein the heat sink has a first side portion and a second side portion which are opposite to each other; the first side portion faces the motor body, and the second side portion faces the circuit board and shields the mounting surface of the circuit board. With the aforementioned design, it could effectively protect the electronic components on the circuit board and provide good heat dissipation effect. | 2019-12-12 |
20190379259 | ELECTROMAGNETIC INTERFERENCE SUPPRESSION COMPONENT AND PROTECTION COMPONENT ASSEMBLY FOR A MOTOR - An electromagnetic interference (EMI) circuit assembly includes a first, second, and third conductive layer. A protection component disposed between the first and second conductive layers. A dielectric layer is disposed between the second and the third conductive layers. The protection component is configured to protect a load from one or both of an overcurrent condition and an over temperature condition, and the third layer define a capacitor configured to suppress EMI signals. | 2019-12-12 |
20190379260 | ANGULAR POSITION SENSING DEVICE - An angular position sensing device for detecting angular position of a rotor of a motor includes a first resolver that includes an annular rotor, an annular stator, a plurality of excitation coils and four induction coils. The annular stator has a stator annular body, and a plurality of stator magnetic poles. One of the annular rotor and the annular stator surrounds the other one of the annular rotor and the annular stator. The excitation coils are respectively wound on the stator magnetic poles of the annular stator. The induction coils are respectively wound on four of the stator magnetic poles. | 2019-12-12 |
20190379261 | SENSING MAGNET ASSEMBLY, ROTOR POSITION SENSING APPARATUS, AND MOTOR INCLUDING SAME - An embodiment relates to a sensing magnet assembly and a motor including the same, the sensing magnet assembly comprising: a sensing plate; a sensing magnet disposed on the plate; and an adhesive tape disposed between the sensing plate and the sensing magnet so as to fix the sensing magnet to the sensing plate, wherein the sensing plate includes a main body in which the adhesive tape is disposed, the main body includes a seating surface and a plurality of grooves or holes, and one side of the adhesive tape is disposed on the seating surface. Accordingly, the adhesive strength between the sensing magnet and the sensing plate can be improved. | 2019-12-12 |
20190379262 | ELECTRONICS HOUSING FOR AN E-AXIS DRIVE AND E-AXIS HAVING AN ELECTRONICS HOUSING - An electronic system housing for an E-axle drive of a motor vehicle is disclosed. The electronic system housing comprises a power electronic system received within the electronic system housing for processing voltage in high voltage systems. At least one low voltage component is further received within the electronic system housing. | 2019-12-12 |
20190379263 | LINEAR VIBRATION MOTOR AND ELECTRONIC DEVICE - A linear vibration motor is provided, comprising a housing, a spring part, a vibrator and a stator, the housing having a chamber, the stator, the vibrator and the spring part being provided in the chamber, the vibrator comprising a counterweight part and a magnet connected together, the stator comprising a pole core and a coil, the pole core being connected to the housing, the coil being wound around the pole core, the housing being configured to be magnetically conductive, the vibrator being suspended relative to the stator by the spring part, the housing comprising a top part and an opposed bottom part, and the vibrator being configured to vibrate along a connecting line between the top part and the bottom part. | 2019-12-12 |
20190379264 | Stepping Motor - A stepping motor includes a stator, a rotor rotatably supported by the stator, and an auxiliary magnetic member. The auxiliary magnetic member has a body, side edge parts at both circumferential ends of the body, and an opening between the side edge parts. The auxiliary magnetic member is elastically mounted around a flange of the stator. The auxiliary magnetic member includes, at one of the side edge parts, a projecting part protruding radially inward from a projected inner circumferential surface of the body across the opening. | 2019-12-12 |
20190379265 | ACTUATOR AND LINEAR MOTION MODULE - An actuator is provided, including a fixed assembly and a movable assembly. The fixed assembly includes a coil module, a base, a first screwing member, and a linear rail. The first screwing member passes through the base and the linear rail, and the linear rail is positioned on the base. The movable assembly includes a U-shaped back board having an inner space, a first magnetic module, a second magnetic module aligned with the first magnetic module, and a sliding block. The first and second magnetic modules are disposed on the U-shaped back board and accommodated in the inner space. The coil module is disposed between the first magnetic module and the second magnetic module. The sliding block is positioned on the U-shaped back board in the inner space, and slidably connected to the linear rail. | 2019-12-12 |
20190379266 | ACTUATOR AND COIL UNIT - In an actuator (camera driver) according to the present invention, when a movable unit is in a neutral position in which the movable unit has rotated around neither an axis nor an axis, a first synthetic vector and a second synthetic vector are directed toward an object to be driven with respect to a plane including the both axes. The first synthetic vector is defined by synthesizing together two first vectors, pointing toward a pair of magnetic yokes, of magnetic attraction forces between a pair of first driving magnets and the pair of magnetic yokes. The second synthetic vector is defined by synthesizing together two second vectors, pointing toward a pair of magnetic yokes, of magnetic attraction forces between a pair of second driving magnets and the pair of magnetic yokes. | 2019-12-12 |
20190379267 | VOICE COIL MOTOR - Disclosed is a voice coil motor, the motor including a mover having a bobbin equipped with a lens and a coil block secured to an outer circumference of the bobbin; a stator having a magnet that is disposed in such a way as to face the coil block; elastic members coupled to a lower end of the bobbin and connected to both ends of the coil block; a base supporting the elastic members and the stator; and a cover can covering the mover, the stator and the base, with an opening being formed in the cover can to expose the lens therethrough, wherein each of the elastic members includes a terminal portion that extends between the cover can and a side surface of the base, the terminal portion including a short-circuit prevention portion so as to inhibit a short-circuit between the terminal portion and the cover can. | 2019-12-12 |
20190379268 | COIL ACTUATOR - An actuator is introduced that utilizes the forces that result from placing a current carrying coil in a magnetic field to rotate a connected object about at least one axis. In some embodiments, the introduced coil actuator includes a coil of conductor coupled to an arm or other type of structural element that extends radially from an axis of rotation. The introduced coil actuator can be utilized to provide motion control in a variety of different applications such as gimbal mechanisms. In some embodiments, the introduced coil actuator can be implemented in a gimbal mechanism for adjusting an orientation of a device such as a camera relative to a connected platform such as the body of an aerial vehicle. | 2019-12-12 |
20190379269 | ONLINE UPS SYSTEM WITH COMBINED AIR AND WATER COOLING - The invention relates to a UPS system in which the following components are arranged in a machine cabinet: an AC-to-DC converter connected to a DC voltage link on its output side, a DC-to-AC converter connected to the DC voltage link on its input side; a motor/generator electrically connected to the DC voltage link and having a flywheel coupled to its rotor; a bypass to the AC-to-DC converter and the DC-to-AC converter connected in series, a bypass switch being arranged in the bypass; a controller; and a blower which draws air out of the surroundings through air filters, blows the air in the machine cabinet through a heat exchanger, and ejects the air again. The heat exchanger is arranged in a coolant circuit together with a coolant pump, cooling bodies for the power output stages, and coolant channels which include stator channels running through a stator of the motor/generator. | 2019-12-12 |
20190379270 | LOSSLESS AVERAGE INPUT AND OUTPUT CURRENT SENSING IN A SWITCHED-MODE POWER SUPPLY - Methods and apparatus for current sensing and error correction in a switched-mode power supply composed of a high-side transistor coupled to a low-side transistor are described. One example method generally includes capturing a current associated with the low-side transistor at a first time corresponding to the low-side transistor turning off; capturing a current associated with the high-side transistor at a second time corresponding to a first delay after the high-side transistor turns on; capturing the current associated with the high-side transistor at a third time corresponding to the high-side transistor turning off; and applying a first correction current to a current-summing node of the current-sensing circuit for a first interval based on the first delay, wherein the first correction current is based on the captured current associated with the low-side transistor at the first time and on the captured current associated with the high-side transistor at the second time. | 2019-12-12 |
20190379271 | MULTI-INPUT SINGLE-OUTPUT DC-DC CONVERTER, CONTROL CIRCUIT AND CONTROL METHOD THEREOF - A multi-input single-output DC-DC converter can include: a plurality of input circuits and an output circuit, where each input circuit includes a first switch, and one terminal of each of the input circuits is coupled to an input source, and the other terminal of the input circuit is coupled to the output circuit; and a control circuit configured to control operation periods of each input circuit in one switching period, in order to achieve power distribution and reach requirements for input currents of the input circuit and an output signal of the output circuit. | 2019-12-12 |
20190379272 | METHODS, APPARATUS, AND SYSTEM TO PROVIDE A HIGH-EFFICIENCY DRIVE FOR A FLOATING POWER DEVICE - Methods and apparatus to provide a high-efficiency drive for a floating gate are disclosed. An example apparatus includes a driver including a supply terminal, the driver configured to output a third voltage corresponding to the supply terminal, the driver to drive a gate of a transistor in a power converter; and a second capacitor to be charged using a first discharging current of a first capacitor and discharged at the supply terminal of the driver, the driver to drive the gate of the transistor based on a second discharging current from the second capacitor. | 2019-12-12 |
20190379273 | CONTROL SYSTEM AND CONTROL METHOD FOR REDUCING TOTAL HARMONIC DISTORTION - A method of reducing THD can include: acquiring a first average inductor current during a first conduction time of a main power transistor of a power converter in a switching cycle; acquiring a second average inductor current during a second conduction time and an off time of the main power transistor in the switching cycle; and adjusting the second conduction time of the main power transistor in accordance with a difference between the first and second average inductor currents, where the first and second conduction times are successive. | 2019-12-12 |
20190379274 | SYSTEM AND METHOD FOR PROVIDING RESONANCE DAMPING - A system for providing resonance damping is disclosed. The system comprises a power generation circuit arranged to supply power to a direct current (DC) bus. The DC bus comprises a first link conductor and a second link conductor arranged such that a current induced in either of the conductors generates a magnetic field having a plurality of magnetic flux lines that extend in a direction generally perpendicular to a first direction of current flow. At least one electronic circuit is coupled to the DC bus. A damping element is coupled to or arranged proximate the first link conductor and the second link conductor of the DC bus, and is arranged such that the plurality of magnetic flux lines induces a plurality of eddy currents having a second direction of current flow in at least one surface of the damping element to provide resonance damping of the system. | 2019-12-12 |
20190379275 | POWER SUPPLY APPARATUS AND IMAGE FORMING APPARATUS - The power supply apparatus includes a switching element configured to drive a transformer, a primary side and a secondary side of the transformer being insulated from each other, a control unit configured to output a pulse signal for driving the switching element, and a comparing unit configured to compare a target voltage of an output voltage that is output from the secondary side of the transformer and the output voltage, and to control the output voltage to be the target voltage, wherein the comparing unit cuts off an input of the pulse signal to the switching element in a case where the output voltage is larger than the target voltage, and wherein the control unit determines a frequency or an on-duty ratio of the pulse signal according to the target voltage. | 2019-12-12 |
20190379276 | START-UP CIRCUIT TO DISCHARGE EMI FILTER FOR POWER SAVING OF POWER SUPPLIES - A start-up circuit to discharge EMI filter is developed for power saving. It includes a detection circuit detecting a power source for generating a sample signal. A sample circuit is coupled to the detection circuit for generating a reset signal in response to the sample signal. The reset signal is utilized for discharging a stored voltage of the EMI filter. | 2019-12-12 |
20190379277 | CONTROL CIRCUITRY FOR INCREASING POWER OUTPUT IN QUASI-RESONANT CONVERTERS - Disclosed herein is a circuit including a transistor, with a resonant tank coupled between a DC supply node and a first conduction terminal of the transistor. A gate driver generates a gate drive signal for biasing a control terminal of the transistor to cause it to conduct current through the resonant tank. Control circuitry monitors a voltage across the transistor to determine that the transistor is an overvoltage condition if that voltage exceeds a threshold, and monitors a current through the transistor to determine that the transistor is an overcurrent condition if that current exceeds a threshold. If overvoltage is determined, the control circuitry causes the gate driver to pull up the gate drive signal. If overcurrent is determined, the control circuitry causes the gate driver to pull down the gate drive signal. If either overvoltage or overcurrent is present, a pulse width of the gate drive signal is reduced. | 2019-12-12 |
20190379278 | POWER SUPPLY - An integrated circuit including a power supply including an AC input, an AC to DC rectifier, a DC output of the rectifier, a switch for shunting the AC input, and a controller including a first connection to the DC output, a second connection to the AC input, wherein the controller is configured to monitor the DC output, determine if the DC output is within a first threshold of a desired output, monitor instantaneous AC voltage across the AC input, determine if an absolute difference of the AC input from zero voltage is less than a second threshold, and if the DC output is within the first threshold and the absolute difference of the instantaneous AC input from zero voltage is less than the second threshold, then provide a command to the switch to shunt the AC input. Related apparatus and methods are also described. | 2019-12-12 |
20190379279 | Distributed Power Harvesting Systems Using DC Power Sources - A method for maintaining reliability of a distributed power system including a power converter having input terminals and output terminals. Input power is received at the input terminals. The input power is converted to an output power at the output terminals. A temperature is measured in or in the environment of the power converter. The power conversion of the input power to the output power may be controlled to maximize the input power by setting at the input terminals the input voltage or the input current according to predetermined criteria. One of the predetermined criteria is configured to reduce the input power based on the temperature signal responsive to the temperature. The adjustment of input power reduces the input voltage and/or input current thereby lowering the temperature of the power converter. | 2019-12-12 |
20190379280 | CHARGE PUMP CONTROL CIRCUIT - A charge pump control circuit is provided in embodiments of the present disclosure, and the charge pump control circuit includes: a charge pump, having a clock interface; a feedback circuit, configured to sample an output voltage of the charge pump to obtain a sampling voltage; a reference voltage generating circuit, having an output terminal outputting a reference voltage; and a comparator, configured to compare the sampling voltage with the reference voltage; wherein the charge pump control circuit further includes: a logic combination circuit, wherein an input terminal of the logic combination circuit is coupled with an output terminal of the comparator, and the logic combination circuit is configured to generate a clock pulse signal according to a comparison result outputted by the comparator, and the clock pulse signal is transmitted to the clock interface of the charge pump. | 2019-12-12 |
20190379281 | BANDWIDTH ADAPTATION IN A PHASE-LOCKED LOOP OF A LOCAL OSCILLATOR - An RF circuit comprises a charge pump configured to generate current pulses having a first current amplitude and a predetermined duration; and a capacitive element configured to receive the current pulses and to generate a tuning voltage depending thereon. An RF oscillator is configured to generate an RF signal having a frequency that is dependent on the tuning voltage. The RF circuit comprises a measuring circuit configured to generate a measurement signal representing the tuning voltage or the frequency of the RF signal. A controller circuit is configured to drive the charge pump in order to change the first amplitude of a current pulse by a current difference, and ascertain a first change in the measurement signal and a second change in the measurement signal. A measurement value for the first amplitude can be calculated based on the first change and the second change based on the current difference. | 2019-12-12 |
20190379282 | CHARGE PUMP CIRCUIT - A bipolar output charge pump circuit having a network of switching paths for selectively connecting an input node and a reference node for connection to an input voltage, a first pair of output nodes and a second pair of output nodes, and two pairs of flying capacitor nodes, and a controller for controlling the switching of the network of switching paths. The controller is operable to control the network of switching paths when in use with two flying capacitors connected to the two pairs of flying capacitor nodes, to provide a first bipolar output voltage at the first pair of output nodes and a second bipolar output voltage at the second pair of bipolar output nodes. | 2019-12-12 |
20190379283 | AMPLIFIER CIRCUIT AND METHODS OF OPERATION THEREOF - A signal amplifying circuit and associated methods and apparatuses, the circuit comprising: a signal path extending from an input terminal to an output terminal, a gain controller arranged to control the gain applied along the signal path in response to a control signal; an output stage within the signal path for generating the output signal, the output stage having a gain that is substantially independent of its supply voltage, and a variable voltage power supply comprising a charge pump for providing positive and negative output voltages, the charge pump comprising a network of switches that is operable in a number of different states and a controller for operating the switches in a sequence of the states so as to generate positive and negative output voltages together spanning a voltage approximately equal to the input voltage. | 2019-12-12 |
20190379284 | TIME-BASED SUPPLY VOLTAGE DIFFERENCE TO DIGITAL CONVERSION - Systems, methods, and circuitries are provided to generate a regulated supply voltage based on a target voltage. In one example, a method includes converting the target voltage to a first digital time-based signal and converting the regulated supply voltage to a second digital time-based signal. A difference signal is generated based at least on a difference between the first digital time-based signal and the second digital time-based signal. Regulator circuitry is controlled to generate the regulated supply voltage based at least on the difference signal. | 2019-12-12 |
20190379285 | POWER CONVERSION DEVICE - A power conversion device that converts power supplied by a first power feed bus ( | 2019-12-12 |
20190379286 | REFERENCE VOLTAGE GENERATOR WITH ADAPTIVE VOLTAGE AND POWER CIRCUIT - There is provided a reference voltage generator for providing an adaptive voltage. The reference voltage generator includes a steady current source and a PMOS transistor and an NMOS transistor cascaded to each other. A reference voltage provided by the reference voltage generator is determined by gate-source voltages of the PMOS transistor and the NMOS transistor. As said gate-source voltages vary with the temperature and manufacturing process, the reference voltage forms a self-adaptive voltage. | 2019-12-12 |
20190379287 | THREE-LEVEL DC-DC CONVERTER AND VOLTAGE BALANCING CIRCUIT THEREOF - A three-level DC-DC converter can include: first and second switches successively coupled between a first terminal of an input port and a middle terminal; third and fourth switches successively coupled between the middle terminal and a second terminal of the input port; a flying capacitor coupled between a common node of the first and second switches and a common node of the third and fourth switches; and a voltage balancing circuit configured to adjust a charge amount or a discharge amount of the flying capacitor based on an error signal characterizing an error between a voltage across the flying capacitor and a predetermined value, in order to maintain the voltage across the flying capacitor within a predetermined range, where the predetermined value is within the predetermined range. | 2019-12-12 |
20190379288 | Highly Integrated High Voltage Actuator Driver - A single die driver integrated circuit is coupled to an input portion having a single inductor receiving a low voltage source and configured to drive a capacitive load with an output voltage. The driver includes a bidirectional synchronous power converter stage configured to generate a switching voltage from the input portion at a switching node and to generate a high voltage waveform from the low-voltage source. An embedded controller is configured to control a switch of the power converter stage. | 2019-12-12 |
20190379289 | SELF-CALIBRATED DC-DC CONVERTER - A circuit comprising a frequency to voltage converter having an input configured to receive a signal and an output coupled to a first node and another frequency to voltage converter having an input configured to receive a reference clock and an output coupled to a second node. The circuit also comprises a voltage source coupled between the first node and a third node, a voltage source coupled between the second node and a fourth node, a switch coupled between the first node and the third node, and a switch coupled between the second and fourth nodes. The circuit further comprises a comparator having an input coupled to the second node, another input coupled to the third node, and an output, a logic circuit having an input coupled to the comparator output and an output, and a counter having an input coupled to the logic circuit output and an output. | 2019-12-12 |
20190379290 | Device and Method for Converting Input Voltage to Output Voltage - A device and method for controlling a power converter. The device includes an activation terminal configured to obtain a first voltage based on the input voltage; a controlling terminal configured to obtain a second voltage based on the output voltage; and a digital controller configured to obtain a driving power based on the first voltage and/or the second voltage; the digital controller is configured to obtain the driving power at least based on the first voltage when the power converter is stopped. Therefore, a sufficient driving power can be provided for the digital controller even when the power converter is stopped. | 2019-12-12 |
20190379291 | BIDIRECTIONAL THREE-PHASE DIRECT CURRENT (DC)/DC CONVERTERS - A bidirectional three-phase direct current (DC)/DC converter and method are disclosed. The converter comprises a primary side comprising a DC bus having a positive side and a negative side, a first set of rectifiers connected between the positive side and the negative side of the DC bus, a first set of M resonant tanks connected to a respective rectifier of the first set of rectifiers and a first set of M transformers. Each transformer is connected to a respective resonant tank. Each resonant tank comprises a resonant capacitor and a resonant inductor. The secondary side of the converter is fully symmetrical to the primary side of the converter to ensure that the conversion gain in the forward and reverse directions is the same. | 2019-12-12 |
20190379292 | INTERLEAVED CONVERTERS WITH INTEGRATED MAGNETICS - Three-phase interleaved LLC and CLLC resonant converters, with integrated magnetics, are described. In various examples, the primary sides of the phases in the converters rely upon a half-bridge configuration and include resonant networks coupled to each other in delta-connected or common Y-node configurations. The secondary sides of the phases can rely upon a full-bridge configurations and are coupled in parallel. In one example, the transformers of the phases in the converters are integrated into one magnetic core. By changing the interleaving structure between the primary and secondary windings in the transformers, resonant inductors of the phases can also be integrated into the same magnetic core. A multi-layer PCB can be used as the windings for the integrated magnetics. | 2019-12-12 |
20190379293 | SYNCHRONOUS RECTIFIER CONTROL - A synchronous rectifier control circuit includes a drain voltage input, a gate voltage output, a gate voltage generation circuit, a burst detection circuit, an on-time monitor circuit, and a burst mode reset circuit. The gate voltage generation circuit includes a first input coupled to the drain voltage input, and an output coupled to the gate voltage output. The burst detection circuit includes a first input coupled to the drain voltage input, and an output coupled to a second input of the gate voltage generation circuit. The on-time monitor circuit includes an input coupled to the output of the gate voltage generation circuit. The burst mode reset circuit includes a first input coupled to the drain voltage input, a second input coupled to an output of the on-time monitor circuit, and an output coupled to a second input of the burst detection circuit. | 2019-12-12 |
20190379294 | Controlled Power Circuit With Adjusted Voltage Feedback to Regulate the Output Power - A controller to regulate an output voltage of a power converter comprising a feedback reference circuit to generate a drive signal to control a power switch in response to the feedback signal and an output power control circuit configured to generate an adjust signal in response to an output current of the power converter and a desired value of an output power of the power converter, the adjust signal adjusts the feedback signal such that the controller regulates the output voltage to achieve the desired value of the output power. The output power control circuit further comprises an analog-to-digital converter (ADC), a calculator circuit, and an update circuit. The ADC provides a measure signal which is a digital representation of the output current, the calculator circuit determines a calculated value of the output voltage, and the update circuit further outputs an update signal to update the adjust signal. | 2019-12-12 |
20190379295 | MAIN CIRCUIT WIRING MEMBER AND POWER CONVERSION DEVICE - A main circuit wiring member for electrically connecting a supply source of direct-current power and a semiconductor element module to each other or semiconductor element modules to each other, includes a first conductor covered with an insulating film and configured to allow a first potential to be applied thereto, a second conductor covered with the insulating film and configured to allow a second potential to be applied thereto, the second potential being lower than the first potential, and an insulating member that has intermediate-potential layer conductors sandwiched therein and is arranged between the first conductor and the second conductor. | 2019-12-12 |
20190379296 | HEV E-DRIVES WITH HV BOOST RATIO AND WIDE DC BUS VOLTAGE RANGE - A system includes a bus, and a variable voltage converter (VVC) having a switch in series with a capacitor, and an inductor in parallel with the capacitor and switch, and configured such that operation of the switch in boost mode over a duty cycle range from 0 to less than 0.5 results in a corresponding voltage output to the bus from 0 to a maximum of the VVC. | 2019-12-12 |
20190379297 | PARALLELED PASSIVE FRONT-END RECTIFIERS WITH AND WITHOUT INTERLEAVING - Embodiments herein relate to a three-phase paralleled passive front-end drive, that includes a rectifier bridge, a coupling reactance operably connected to the rectifier bridge and configured to transfer power from the rectifier to a first direct current (DC) bus, and a bus coupler operably coupling the first DC bus to a second DC bus. The paralleled drive also includes a first inverter operably connected to the first DC bus; a second inverter operably connected the second DC bus, the first inverter and second the inverter each configured to provide a plurality of motor excitation signals, respectively. The paralleled drive also includes a plurality of interphase inductors operable to combine the plurality of motor excitation signals from the first inverter with the plurality of motor excitation signals from the second inverter. | 2019-12-12 |
20190379298 | Semiconductor Device and Power Conversion System - A first drive circuit is connected with a first power supply node and a first GND node. A second drive circuit is connected with a second power supply node and a second GND node electrically separated from the first power supply node and the first GND node, respectively. A PN junction portion is formed of a P type part electrically connected with the first GND node, and an N type part electrically connected with the second power supply node. A magnetic coupling element has a first conductor coil and a second conductor coil. The first conductor coil is electrically connected with output nodes of the first drive circuit. The second conductor coil is electrically connected with input nodes of the second drive circuit. | 2019-12-12 |
20190379299 | POWER CONVERSION DEVICE - A power conversion circuit is provided. The power conversion circuit includes a bridge circuit connected between power input terminals, a drive circuit supplied with power from a DC power source via the power input terminals, a boost circuit for, when the DC power source is reversely connected, starting up and supplying power to a control circuit, and a reverse voltage detection circuit for detecting a reverse voltage generated when the DC power source is reversely connected. | 2019-12-12 |
20190379300 | RESILIENT WAVE-SHAPED ENERGY-GENERATING DEVICE - An energy-generating device is provided for generating energy by device deformation in any of three orthogonal directions. The device includes a resilient wave-shaped substrate comprising six or more alternating wave structures extending along at least one axis. The resilient wave-shaped substrate is capable of deformation and recovery in three orthogonal directions. Resilient, energy-generating components are mounted on top and bottom surfaces of the resilient wave-shaped structure. The energy-generating components are selected from piezoelectric and triboelectric energy-generating component and output a voltage and current in response to deformation in any of three orthogonal directions. In one aspect, the energy generating device is included in an energy harvester. In another aspect, the energy-generating device is included in a sensor, particularly a sensor for measuring strain. In one aspect a mat of randomly-oriented piezoelectric fibers comprises the energy-generating component. | 2019-12-12 |
20190379301 | STICK-SLIP PIEZOELECTRIC MOTOR - A piezo-electric motor | 2019-12-12 |
20190379302 | MOTOR AND APPARATUS USING THE SAME - A motor includes a first vibrator, a plurality of biasing parts that are disposed around the first vibrator and that presses the first vibrator onto a contacting member in contact with the first vibrator, a first pressing member that is biased by the plurality of biasing parts and that includes a pressing part pressing the first vibrator by biasing force of the plurality of biasing parts, and a second pressing member that is biased by the plurality of biasing parts. The first vibrator and the contacting member move relatively by vibrations that occur in the first vibrator. The first and second pressing members integrally moves while the first vibrator moves. The first pressing member and the first vibrator are tiltable around a first direction orthogonal to both of a moving direction of the first vibrator and a biasing direction of the plurality of biasing parts. | 2019-12-12 |
20190379303 | Micro Electrostatic Motor and Micro Mechanical Force Transfer Devices - Disclosed is a force transfer device that includes a first body that has a first body frame that defines a first chamber and at least one gear element. The gear element has a central gear element region. A first membrane is affixed to a surface of the first body frame, the membrane covering the chamber and having an annular aperture enclosing a central region of the membrane that is affixed to the central gear element region of the gear element. The disclosed force transfer device can be axle or shaft based. Also disclosed in a micro electrostatic motor that includes a motor body having a first and a second face, the motor body defining a chamber and a rotor having a central region. A membrane is disposed over the first face of the motor body, the membrane supporting a pair of spaced electrodes that are electrically isolated by a gap, the membrane having an annular aperture that defines a central region of the membrane that is coupled to the central region of the rotor. The force transfer device can be driven by the electrostatic motor. | 2019-12-12 |
20190379304 | Micro Electrostatic Motor and Micro Mechanical Force Transfer Devices - Disclosed is a micro electrostatic motor that includes a body having a first and a second face and having a chamber. A first membrane is disposed over the first face of the body and a rotatable disk is disposed in the circular chamber about a member. The disk is disposed in the circular chamber and is free to rotate about the member. The disk has on a first surface thereof a set of three mutually electrically isolated electrodes, with each of the electrodes having a tab portion and being electrically isolated from the member. A second membrane is disposed over the second face of the body and a pair of spaced electrodes are provided on portions of the second membrane, with the pair of spaced electrodes being isolated by a gap between the pair of electrodes. A cylindrical shaped member is disposed in the chamber electrically isolated from the three mutually electrically isolated electrodes on the disc. | 2019-12-12 |
20190379305 | VIBRATION WAVE MOTOR, DRIVE CONTROL SYSTEM, AND OPTICAL APPARATUS - A vibration wave motor includes an annular oscillator, and an annular moving member provided so as to be in press contact with the oscillator. The oscillator includes an annular vibrating plate, and an annular piezoelectric element provided on a first surface of the vibrating plate. The vibrating plate is in contact with the moving member via a second surface of the vibrating plate, which is opposite of the first surface. The piezoelectric element has a plurality of drive phase electrodes. When a driving region represents a region of the oscillator in which each drive phase electrode is provided, and a non-driving region represents a remaining region of the oscillator, a contact area ratio S1 between the vibrating plate and the moving member in the non-driving region is less than a contact area ratio S2 between the vibrating plate and the moving member in the driving region. | 2019-12-12 |
20190379306 | MICRO-ELECTROMECHANICAL DEVICE FOR ENERGY HARVESTING - The present invention discloses, inter alia, a micro-electromechanical device (DEVICE) for sensing and for harvesting electrical energy responsive to being subjected to mechanical forces that includes at least one first electrode fixedly mounted on a first support, wherein the at least one first electrode is chargeable with electrons, and at least one second electrode inertia-mounted on a second support such that the first and second supports are electrically isolated from each other. | 2019-12-12 |