42nd week of 2021 patent applcation highlights part 70 |
Patent application number | Title | Published |
20210328462 | CORELESS POWER TRANSFORMER - A transformer system is provided that includes an ensemble of four magnetically coupled coils having fixed spacing geometry. The ensemble of four magnetically coupled coils includes a load coil, a primary resonant coil, a drive coil and a secondary resonant coil. All coils are coupled in the transformer system, but the first resonant coil is highly coupled with the drive coil so that the resonant coil can receive energy from the drive coil and the second resonant coil is highly coupled to the load coil so that the load coil can extract energy efficiently from the second resonant coil. Additionally, the primary resonant coil may be at least partially nested coaxially inside the drive coil and/or the secondary resonant coil may be at least partially nested coaxially inside the load coil. | 2021-10-21 |
20210328463 | DEVICE AND METHOD FOR TRANSMITTING OR RECEIVING DATA IN WIRELESS POWER TRANSMISSION SYSTEM - The present invention relates to a device and a method for transmitting or receiving data in a wireless power transmission system. The present specification discloses a wireless power reception device comprising: a power pickup unit configured to receive, from a wireless power transmission device, wireless power generated on the basis of magnetic coupling in a power transmission phase; and a communication/control unit configured to receive, from the wireless power transmission device, information on a first buffer size indicating the size of a first buffer for receiving a data transmission stream. As the buffer size for exchanging the data transmission stream between the wireless power transmission device and reception device becomes clear, wireless power transmission and communication can proceed smoothly. | 2021-10-21 |
20210328464 | CLAW POLE MOTOR WITH A RING COIL AND A MEANDERING COIL - A claw-pole motor having a rotor assembly orientated about a longitudinal axis, a stator assembly having a first plurality of stator teeth and a second plurality of stator teeth orientated radially about the longitudinal axis and extending axially in opposite directions to each other and alternating about the longitudinal axis, a first gap in the stator assembly orientated about the longitudinal axis, a second gap orientated about the longitudinal axis and extending both axially and radially between the first plurality of stator teeth and the second plurality of stator teeth, first electromagnetic windings disposed in the first gap and second electromagnetic windings disposed in the second gap, the first and second windings configured to be selectively energized to exert a torque on the rotor assembly. | 2021-10-21 |
20210328465 | Partitioned Stator - Systems and methods of the present disclosure generally relate to a partitioned stator. The stator includes a plurality of partitioned iron cores that are identical in shape and connected to each other. Windings are wrapped around the partitioned iron cores. Each partitioned iron core includes a yoke and a tooth. End-face enlargements are symmetrically arranged on two end-faces of the yoke. The yoke is of an arc-shaped structure, and the end-face enlargements extend in a radial direction of the arc-shaped structure. | 2021-10-21 |
20210328466 | Electric Machines with Energizable and Non-Energizerable U-Shaped Stator Segments - A method of making a stator module for use in a stator assembly of an electric machine includes temporarily supporting a plurality of stator segments in a desired orientation using a temporary support. The desired orientation of the stator segments is a relative orientation of the stator segments within the stator module. A mold is placed around the plurality of stator segments and the mold is filled with a potting material to form a stator module such that the potting material supports the stator segments in their desired orientation. The temporary support is removed. | 2021-10-21 |
20210328467 | OUTER ROTOR TYPE MOTOR - A stator core is integrally moulded with an insulator employing an insulating resin material, together with a fixed shaft which is inserted into a centre hole in a core back portion, and the stator core and a motor circuit board are assembled as a single piece by mating a plurality of circuit board insertion pieces protruding on an axial end of the insulator on the opposite side to an output end with circuit board insertion holes. | 2021-10-21 |
20210328468 | Electronically Commutated Machine, Electronically Slip-Controllable Brake System and Method for Manufacturing an Electronically Commutated Machine - An electronically commutated machine, in particular an electronically commutated electric motor is disclosed. To detect an angle of rotation completed by a rotor shaft of the machine or a rotational speed, this rotor shaft is equipped with a signal generator of a sensor device. This latter component has a magnet element, which is fastened on the rotor shaft by way of a holding element. A clamping body is included, which is arranged on the rotor shaft with force fit and onto which the holding element is pressed. | 2021-10-21 |
20210328469 | EC MOTOR WITH CAST ARMATURE SHAFT - An EC motor is provided having a stator, in which an armature is rotatably supported, the armature including an armature shaft, on which an armature core having a plurality of permanent magnets is held, the armature core being electrically insulated against the armature shaft with the aid of a casting compound, and a balance ring being provided on at least one axial end of the armature core, which is accommodated on the armature shaft by a central recess, a gap between the armature shaft and the central recess of the balance ring being filled with casting compound, and the permanent magnets being held in pockets of the armature core by casting compound. | 2021-10-21 |
20210328470 | OUTER ROTOR TYPE MOTOR EQUIPPED WITH POWER TRANSMISSION - A rotor hub comprises an inside cylindrical portion extending in an axial direction on an inner surface side of a rotor yoke and an outside cylindrical portion extending in the axial direction on an outer surface side of the rotor yoke, a motor gear wheel is integrally moulded on a portion of said outside cylindrical portion, and a rotor unit is assembled with a stator unit in such a way that a fixed shaft is inserted into a cylindrical hole in the rotor hub and a rotor magnet and pole teeth are facing. | 2021-10-21 |
20210328471 | ELECTRIC MACHINE AND MOTOR VEHICLE - An electric machine comprises a rotor with a rotor body, wherein the rotor body has a plurality of poles each carrying at least one rotor winding formed from a plurality of conductor loops, wherein the poles extend in a radial direction of the rotor and the conductor loops running through grooves respectively formed between two adjacent poles, wherein a support element extending in the radial direction is respectively arranged in the grooves between the rotor windings of the adjacent poles, which support element, at a radially outer end of the groove, bears up against a thrust-bearing element arranged in a radially positionally-fixed manner between the adjacent poles, wherein the support element presses the conductor loops against the rotor body during a rotation and/or a temperature increase of the rotor. | 2021-10-21 |
20210328472 | Stator Having Winding Cooling for an Electrical Machine - Various embodiments include stator for an electrical machine comprising: a stator winding; and a yoke with a plurality of slots. There are a plurality of conductor segments connected to one another, wherein each conductor segment has one respective axially internal inner section and two respective axially external outer sections. The respective inner section of each conductor segment is embedded into a respective slot. Ducts for coolant flow in the axial direction are formed at least in a portion of each of the slots. The stator defines, at least in a first axial end region, a first coolant chamber fluidically encapsulated from a surrounding area. The first coolant chamber surrounds at least a portion of the respective outer sections of each of the conductor segments situated in the first axial end region. The first coolant chamber is fluidically connected to the ducts to conduct coolant into and/or out of the ducts. | 2021-10-21 |
20210328473 | STATOR FOR ROTARY ELECTRIC MACHINE AND ROTARY ELECTRIC MACHINE USING SAME - Provided is a rotary electric machine which is configured to draw three-phase output lines from a connection side coil end by an easy process. A stator for a rotary electric machine according to the present invention includes a plurality of segment coils including connection-side winding portions and non-connection-side winding portions. The connection-side winding portions are arranged on one side of a stator core and connected to slots with the same slot pitch, and the non-connection-side winding portions are arranged on the other side of the stator core and inserted into the slots with a plurality of kinds of slot pitches. The connection-side winding portions include a first connection group and a second connection group. The first connection group is provided with a plurality of terminal portions for connecting the segments, and the second connection group connects layers different from those in the first connection group, and is provided with a plurality of terminal portions. | 2021-10-21 |
20210328474 | ROTATING ELECTRIC MACHINE - A rotating electric machine includes a multi-phase armature coil wound on an armature core. The armature coil is formed of electrical conductor groups each being a bundle of electrical conductor segments and having a pair of leg portions and a connecting portion that connects the leg portions. The connecting portion is bent radially with respect to a circumferential direction. The electrical conductor groups are paired such that each pair of the electrical conductor groups consists of a first electrical conductor group and a second electrical conductor group both belonging to a same phase of the armature coil. The circumferential pitch between the leg portions of the first electrical conductor group is greater than that between the leg portions of the second electrical conductor group. In each pair of the electrical conductor groups, the connecting portions of the first and second electrical conductor groups are arranged to axially overlap each other. | 2021-10-21 |
20210328475 | COIL LAYOUT FOR A GENERATOR HAVING TAPE CONDUCTORS - Provided is an electric generator having a stator, a rotor, a plurality of coils including conductors shaped as a tape, the stator extending axially along a longitudinal axis between a first axial end and a second axial end, the stator including a plurality of slots, the plurality of slots being circumferentially distributed around a longitudinal axis of the stator, each of the coils respectively comprising: two slot portions respectively housed in two slots of the stator, two end-windings axially protruding from stator at the first axial end and a second axial end. | 2021-10-21 |
20210328476 | MOTOR INCLUDING WINDING INCLUDING INNER BENT PORTION AND OUTER BENT PORTION AND METHOD OF MANUFACTURING MOTOR - A motor includes a rotor and a stator including a stator core and a winding including a first extension extending with respect to the stator core toward one side in a rotation-axis direction of the rotor, a second extension extending toward a rotation-radial direction outside of the rotor from an end of the first extension on the one side in the rotation-axis direction, and a third extension extending toward the one side in the rotation-axis direction from an end at the rotor rotation-radial direction outside of the second extension, and connected to a circuit device, and the winding forming a coil around the stator core, and such that an inner bent portion at a boundary between the first and second extensions is disposed at the one side in the rotation-axis direction with respect to an outer bent portion at a boundary between the second and third extensions. | 2021-10-21 |
20210328477 | MOTOR, COOLING DEVICE HAVING TWISTED SPIRAL COOLING CHANNEL AND COOLING METHOD - A motor, a cooling device, and a cooling method are disclosed. The cooling device is mounted on a stator of the motor. The cooling device includes a sleeve and a spiral duct. A wall of the sleeve has a spiral groove extending along the sleeve. The sleeve is sleeved onto the stator. The spiral duct is mounted in the spiral groove. The spiral duct has a first spiral form corresponding to the spiral groove, so that the spiral duct is correspondingly installed in the spiral groove. The spiral duct has a second spiral form extending along the spiral duct. A twisted spiral cooling channel is formed along the spiral pathway. A cooling fluid flowing through the twisted spiral cooling channel is subjected to the continuously changing cross-section of the twisted spiral cooling channel to enhance the swirl intensity, thereby improving the convection heat transfer effectiveness. | 2021-10-21 |
20210328478 | Electric Dispensing Tool Motor - A brushless DC power tool motor comprises an integrated planetary gear set with a drive drain well suited to create thrust for use in powered caulking dispensers. Disclosed embodiments may comprise a shaft disposed through the center of the motor. The shaft has an acme thread on the exterior with two flats ground on it on opposing sides used to keep the motor shaft from turning. The motor windings are driven with a | 2021-10-21 |
20210328479 | ROTOR SUPPORT FOR AN ELECTRICAL MACHINE - A rotor carrier for a rotor of an electric machine and to a hybrid module with such a rotor carrier. The rotor carrier includes a tubular base body having elements on an outer circumferential surface facing the rotor for connection between base body and rotor, the base body is connected to a hub by a connection element. The connection element has an axial portion which extends along a part of the axial length of the base body and runs coaxial to the latter, in that receptacles for parts of a clutch are provided on an inner circumferential surface of the axial portion remote of the base body, and in that the connection element has a flange area adjoining the axial portion. | 2021-10-21 |
20210328480 | MOTOR OIL COOLING STRUCTURE - A motor oil-cooling structure for cooling, with oil, coils wound around split stator cores of a motor includes injection holes arranged in a circumferential direction of the split stator cores. The motor includes a motor case, a rotor rotatably supported by the motor case, and a stator including the split stator cores fixed to the motor case and arranged along a cylindrical outer periphery of the rotor. Each of the injection holes is structured to inject oil toward a corresponding one of coil gaps each of which is formed between two of the split stator cores adjacent to each other. Furthermore, each of the injection holes is structured to inject oil in a direction inclined by a circumferential inclination angle with respect to a direction of a motor axis, wherein oil injected to the coil gaps in the direction of the motor axis passes straight through the coil gaps. | 2021-10-21 |
20210328481 | PERMANENT MAGNET MOTOR HARMONIC FILTER - Architectures or techniques are presented that can improve operation of permanent magnet (PM) motors, which can be part of a compressor or other heating, ventilation, and air conditioning (HVAC) device. Such improvements can be achieved by integration of inductive filtering into the motor assembly. A higher overall inductance can reduce current ripple and can further result in a lower total harmonic distortion, reduced power loss, and reduced heat generated. For example a first architecture can include a ferromagnetic core element in the PM motor that can cause a non-torque-producing reluctance path to the shaft. A second architecture can integrate a signal filter, which is customarily external, into a housing of the PM motor. Such can significant reduce costs and provide other advantages. A third architecture can couple an inductor (e.g., of the signal filter) to the shaft. Rotation of the shaft can thus serve to provide additional cooling for the inductor. | 2021-10-21 |
20210328482 | POWER TOOL PRINTED CIRCUIT BOARD INCLUDING EMBEDDED BUSBARS - A power tool that includes a motor and a printed circuit board (“PCB”). The motor includes a rotor and a stator. The stator includes a plurality of stator terminals. The PCB is electrically connected to the stator. The PCB includes a switch and an embedded busbar. A first end of the embedded busbar is electrically connected to the switch. The embedded busbar extends away from the PCB. A second end of the embedded busbar electrically connects to a stator terminal of the plurality of stator terminals for providing power to the motor using the switch. The embedded bus bar is embedded between two layers of the printed circuit board. | 2021-10-21 |
20210328483 | DEVICE COMPRISING A CHIP PACKAGE AND AN OVERLAP-FREE COIL LAYOUT - A device includes a substrate with an excitation coil configured to generate a magnetic field in reaction to an input signal fed in, and with a pickup coil arrangement configured to generate an output signal in reaction to a magnetic field. The excitation coil includes one or more turns arranged around the pickup coil arrangement in a ring-shaped manner in a plan view of the substrate plane. The device further includes a chip package comprising at least one electrical connection connected to the pickup coil arrangement by means of a signal-carrying conductor. In accordance with the concept described herein, the chip package is positioned on the substrate in such a way that the signal-carrying conductor and the one or more turns of the excitation coil do not overlap in a plan view of the substrate plane. | 2021-10-21 |
20210328484 | LAMINATED CORE AND METHOD FOR PRODUCING A LAMINATED CORE - A method for producing a laminated core is provided in which a plurality of lamination sheets is partially or completely separated from a strip made of a soft magnetic alloy by laser sublimation cutting, the lamination sheets each having a main surface and a thickness d. The main surface of a first of the lamination sheets is stacked on the main surface of a second of the lamination sheets in a direction of stacking and the main surfaces of the first and the second lamination sheets are substance-to-substance joined at a plurality of points by laser welding, a plurality of filler-free joints being formed between the between the first and the second lamination sheets and being entirely surrounded by the main surfaces of the first and the second lamination sheets. | 2021-10-21 |
20210328485 | A STATOR AND A METHOD FOR ASSEMBLING A STATOR - A stator is provided for a permanent magnet synchronous motor. The stator includes a multiplicity of stator teeth, each stator tooth having a tooth axis. The stator further includes a stator ring with a stator axis, wherein the multiplicity of stator teeth is arranged radially along the circumference of the stator ring, and the tooth axes cross the stator axis orthogonally within one plane. The stator further includes a multiplicity of stator coils, each stator coil having a coil axis and a coil opening and including windings made of a wire, which windings extend along the coil axis, and the coil axis of the respective stator coil is arranged parallel to the tooth axis of the respective stator tooth and the coil opening of the respective stator coil surrounds the respective stator tooth, wherein the wire of the respective coil has a rectangular cross section with a shorter side and a longer side and the shorter side of the wire of the respective coil is orientated parallel to the coil axis of the respective stator coil. | 2021-10-21 |
20210328486 | METHOD FOR MANUFACTURING UNIT COIL FOR STATOR OF ROTARY ELECTRIC MACHINE, DEVICE FOR MANUFACTURING UNIT COIL FOR STATOR OF ROTARY ELECTRIC MACHINE, ROTARY ELECTRIC MACHINE, AND METHOD FOR ROTARY ELECTRIC MACHINE - The unit coil is formed by: bending the coil end portions of the intermediate body such that, in a layer in which a length in an axial direction between the coil end portions is large, positions of the coil end portions projecting furthest from the accommodation portions in the axial direction move away from positions of the accommodation portions in the stacking direction, compared to the previous state; and aligning the positions, in the axial direction, of the coil end portions at an inner side of the annular shape, for each of the layers. | 2021-10-21 |
20210328487 | ELECTRIC MACHINE ASSEMBLY WITH REDUCED ROTOR POST LEAKAGE - A method includes forming elongated magnetic flux carrier portions in magnetically conductive sheets by cutting elongated magnetic flux barriers including one or more relief features into the magnetically conductive sheets, such that the magnetic flux barriers are separated from each other in radial directions of the magnetically conductive sheets. The method includes inserting or forming non-magnetic posts into the magnetic flux barriers such that each of the non-magnetic posts is elongated in a different radial direction of the radial directions from a first magnetic flux carrier portion to a second magnetic flux carrier portion of the magnetic flux carrier portions on opposite sides of at least one magnetic flux barrier; and forming at least part of a rotor for an electric machine assembly using the magnetically conductive sheets having the magnetic flux carrier portions, the non-magnetic posts, and the magnetic flux barriers. | 2021-10-21 |
20210328488 | ROTATING ELECTRIC MACHINE - A voltage limit ellipse is defined in a d-q coordinate system of a rotating electric machine by d-axis and q-axis currents flowing through an armature coil when the magnitude of a voltage vector applied to the armature coil is equal to a voltage limit value. The product of the number of electrical conductor sections per pole in each phase and the number of poles of the rotating electric machine is set to have, when the rotational speed of the rotating electric machine is equal to a maximum rotational speed, the center of the voltage limit ellipse located outside an electric-current limit circle and in a negative d-axis region in the d-q coordinate system and a positive-d-axis-side vertex of the voltage limit ellipse located inside or on the electric-current limit circle. | 2021-10-21 |
20210328489 | AXIAL GAP MOTOR - An axial gap motor is configured such that: a rotor includes a plurality of rotor cores fixed along the circumferential direction of a rotor pedestal, and a plurality of magnets; and a stator includes a plurality of stator cores fixed along the circumferential direction of a stator pedestal, and coils wound around the stator cores. A first divided surface of each rotor core faces an N-pole of a corresponding magnet, and a second divided surface of the each rotor core faces an S-pole of a corresponding magnet. Respective divided surfaces of the rotor cores are placed to face respective divided surfaces of the stator cores across the magnets. | 2021-10-21 |
20210328490 | AXIAL GAP MOTOR - In an axial gap motor, a rotor includes a plurality of rotor cores fixed in a circumferential direction of a rotor base, and a stator includes a plurality of stator cores fixed in a circumferential direction of a stator base, and coils wound around the stator cores. End faces of each of the rotor cores and end faces of the corresponding stator core are opposed to each other while being exposed to each other. | 2021-10-21 |
20210328491 | VIBRATION ACTUATOR AND ELECTRONIC EQUIPMENT - This vibration actuator has: a stationary body having a coil; a movable body having a magnet disposed radially inside the coil; and an elastic support part for supporting the movable body so that the movable body can move relative to the stationary body. The stationary body has a coil holding part. The coil holding part has, on the inner diameter side of the coil, a coil protection wall part. The elastic support part has at least two or more plate springs bridged between the coil holding part and the movable body so as to sandwich the movable body in a vibration direction. In order that the movable body does not come into contact with the coil holding part when not vibrating and when vibrating, the plate springs support the movable body so that the movable body is movable in the vibration direction. | 2021-10-21 |
20210328492 | Electromagnetic Linear Actuator - An electromagnetic linear actuator, which comprises a first and a second element. One element is a magnetic oscillator with at least one magnet, and the other element is a magnetic stator with at least one magnet. The two elements are movable relatively linearly to one another and the magnetization directions of the oscillator and of the stator are parallel. Either the stator comprises two opposing identical stator poles or the oscillator comprises two opposing identical oscillator poles. Furthermore, a method for producing a mechanical movement by means of an actuator. Either magnetization of a stator of the actuator takes place such that the stator comprises two opposing identical stator poles or magnetization of an oscillator of the actuator takes place such that the oscillator comprises two opposing identical oscillator poles. | 2021-10-21 |
20210328493 | METHOD FOR DRIVING A ROTOR OF A PLANAR DRIVE SYSTEM - A method for driving at least one rotor in a planar drive system. The rotor has a device for generating a magnetic field. The rotor can be moved on a drive surface formed by stator modules comprising a magnetic field generator. A virtual two-dimensional potential curve is determined for the rotor, with a target point having an attractive potential. A virtual force vector is determined with a vector direction and a vector length at a first position of the rotor, which is determined from the virtual two-dimensional potential curve. A magnetic drive field interacting with the magnetic field of the rotor is generated by the magnetic field generator such that a resulting force is applied to the rotor by interaction of the magnetic drive field with the magnetic field. The direction of the resulting force is based on the vector direction, and the strength is based on the vector length. | 2021-10-21 |
20210328494 | POWER CONVERTER - A power converter includes a power conversion controller configured to determine whether or not an output terminal is misconnected to a system power supply based on a current between a power converter and the output terminal and a voltage between the power converter and the output terminal, and to perform a control to stop power conversion in the power converter when determining that the output terminal is misconnected to the system power supply. | 2021-10-21 |
20210328495 | Current Control for Passivity of a Power Converter - A method performed by a control system of a power electronics converter. A first part of a grid-side current controller runs a first feedback control algorithm having a first control cycle time and includes at least proportional control using a proportional gain. A third part of the controller runs a third feedback control algorithm having the first control cycle time and acting on an output from the first control algorithm after SOA limits have been applied and includes counteracting the proportional control of the first feedback control algorithm. A second part of the controller runs a second feedback control algorithm having a second control cycle time, less than the first control cycle time, and acting on an output from the third control algorithm with the same polarity as the first control algorithm and includes proportional control using the proportional gain. | 2021-10-21 |
20210328496 | FLEXIBLE AND EFFICIENT SWITCHED STRING CONVERTER - An electric converter for converting AC or DC input into an electric AC or DC output. A swap circuit with controllable electric switches serves to selectively swap connection of a plurality of DC power banks (DCBs) between an input terminal and an output terminal, thus selectively connecting the DCBs to an electric source or an electric load. The DCBs are formed as series of interconnected submodules (SMs) each having one or more electric energy storage elements (ESEs) and a switching circuit for selectively by-passing or connecting the ESEs. The ESEs can be capacitors, batteries, super capacitors, or a combination of these. By properly controlling the swap circuit and the switching of the SMs, such as by taking into account the dead-time for the electric switches involved, the converter can be used for DC-AC, DC-DC, AC-DC, or AC-AC conversion, allowing multilevel output. It can in some embodiments eliminate the need for an unfolding converter, and the converter provides a rather simple and efficient topology, suitable e.g. for connection of a DC input from a photovoltaic elements to an AC electric grid. | 2021-10-21 |
20210328497 | CONTROL METHOD AND CONTROL CIRCUIT FOR A BOOST CONVERTER - A control circuit for a boost converter can include: a comparison circuit configured to compare an input voltage of the boost converter against an output voltage of the boost converter, and to generate first and second control signals; an option circuit configured to provide a third control signal generated by a drive circuit of the boost converter to a control terminal of a synchronous power transistor of the boost converter, in accordance with the first and second control signals, when the output voltage is greater than the input voltage; and the option circuit being configured to provide a DC voltage to the control terminal of the synchronous power transistor, in accordance with the first and second control signals, in order to provide a current path for an inductor current of the boost converter through the synchronous power transistor, when the output voltage is not greater than the input voltage. | 2021-10-21 |
20210328498 | POWER ADAPTERS AND METHODS OF IMPLEMENTING A POWER ADAPTER - An in-wall power adapter configured to apply power to a device is described. The in-wall power adapter may comprise a plurality of contact elements including a first contact element configured to receive a power signal, a second contact element configured to receive a neutral signal, and a third contact element configured to receive a ground signal; an outlet having a plurality of terminals for receiving prongs of a plug; a recess of the in-wall power adapter having a second plurality of contact elements configured to receive power; and a module having a third plurality of contact elements adapted to be coupled to the second plurality of contact elements; wherein the module comprises a voice activated user interface adapted to receive input information. | 2021-10-21 |
20210328499 | SYSTEMS AND METHODS OF ADJUSTING SLOPE COMPENSATION - Adjusting slope compensation. At least one example embodiment is a method including: operating a switching power converter comprising a charge control switch, the charge control switch configured to control power flow through the switching power converter, and the operating by a circuit controller; measuring, by the circuit controller, an attribute of duty cycle of a first period of the charge control switch; measuring, by the circuit controller, an attribute of duty cycle of a second period of the charge control switch; measuring, by the circuit controller, an attribute of duty cycle of a third period of the charge control switch; determining, by the circuit controller, that the switching power converter is experiencing subharmonic oscillation based on the first, second, and third attributes of duty cycle; and changing, by the circuit controller, an attribute of slope compensation responsive to the determining that the switching power supply is experiencing subharmonic oscillation. | 2021-10-21 |
20210328500 | PRIMARY CONTROLLER APPLIED TO A PRIMARY SIDE OF A POWER CONVERTER AND OPERATIONAL METHOD THEREOF - A primary controller applied to a primary side of a power converter includes a ripple cancellation circuit, a compensation voltage generation circuit, and a gate control signal generation circuit. The ripple cancellation circuit generates an adjustment according to a current flowing through a feedback pin of the primary controller during turning-on of a power switch of the primary side of the power converter. The compensation voltage generation circuit generates a compensation voltage of a compensation pin of the primary controller according to the adjustment, a reference voltage, and a feedback voltage of the feedback pin. The gate control signal generation circuit generates a gate control signal to the power switch to reduce an output voltage of a secondary side of the power converter according to the compensation voltage and a detection voltage. | 2021-10-21 |
20210328501 | POWER CONVERTER CONTROLLER HAVING A SHORT-CIRCUIT PROTECTION THRESHOLD VOLTAGE NO HIGHER THAN AN OVER-CURRENT PROTECTION THRESHOLD VOLTAGE - The present invention discloses a power converter controller having a short-circuit protection threshold voltage no higher than an over-current protection threshold voltage so that any abnormal voltage or current stress on semiconductor components can be timely sensed via a current sense pin in the event of a short-circuit fault, effectively preventing semiconductor components from being damaged. | 2021-10-21 |
20210328502 | POWER CONVERTER CONTROLLER WITH SHORT-CIRCUIT PROTECTION - The present invention discloses a power converter controller with short-circuit protection employing a short-circuit protection increasing slope threshold no higher than an over-current protection increasing slope threshold to detect a short-circuit abnormality in advance through a current sensing pin while any semiconductor component suffering from abnormal voltage or over-current, thereby preventing the semiconductor components from damage. | 2021-10-21 |
20210328503 | Method for Controlling an Electric Energy Converter, and Corresponding Converter - A method for controlling an electric energy converter, which includes, for at least one first physical quantity of the converter having a variable maximum that is a function of a plurality of possible operating points, each possible operating point being associated with a value of the variable maximum and being defined by a value of at least one operating parameter of the converter: determining a current operating point of the converter from the plurality of possible operating points; determining the value of the variable maximum associated with the current operating point, referred to as a first value; determining a current value of the at least one first physical quantity, referred to as a second value; and activating or not activating a limiter circuit, which limits the at least one first physical quantity, as a function of a result of a comparison between the first value and the second value. | 2021-10-21 |
20210328504 | DRIVING CIRCUIT WITH EMI REDUCTION - A driving circuit providing a driving signal at a driving terminal to drive a power switch. The driving signal has a first driving period and a second driving period. Both the first driving period and the second driving period have a first driving time interval. The driving circuit has a first equivalent on resistor established during the first driving time interval and located between a first voltage node and the driving terminal. The first equivalent on resistor has a first equivalent on resistance during the first driving time interval of the first driving period and has a second equivalent on resistance during the first driving time interval of the second driving period. The first equivalent on resistance and the second equivalent on resistance are not equal. | 2021-10-21 |
20210328505 | A DC TO DC CONVERTER FOR A VEHICLE ALTERNATOR - A direct-current (DC) converter for a permanent-magnet (PM) alternator for a vehicle, the DC converter including one or more pairs of step-down converters that are electrically in parallel operating at a fundamental switching frequency, wherein the two step-down converters in each pair are arranged to be switched out of phase, and wherein the two step-down converters in each pair are arranged adjacent to each other to mitigate conducted electromagnetic interference (EMI). | 2021-10-21 |
20210328506 | POWER CONVERTER WITH MODULAR STAGES CONNECTED BY FLOATING TERMINALS - An apparatus for electric power conversion includes a converter having a regulating circuit and switching network. The regulating circuit has magnetic storage elements, and switches connected to the magnetic storage elements and controllable to switch between switching configurations. The regulating circuit maintains an average DC current through a magnetic storage element. The switching network includes charge storage elements connected to switches that are controllable to switch between plural switch configurations. In one configuration, the switches forms an arrangement of charge storage elements in which at least one charge storage element is charged using the magnetic storage element through the network input or output port. In another, the switches form an arrangement of charge storage elements in which an element discharges using the magnetic storage element through one of the input port and output port of the switching network. | 2021-10-21 |
20210328507 | POWER CONVERTER - A power converter includes: capacitors; switches coupled to the corresponding capacitors, wherein the switches switch electrical connection relationships of corresponding capacitors according to operation signals; one or more charging inductors connected in series to one or more corresponding capacitors; one or more discharging inductors connected in series to one or more corresponding capacitors. In a charging process, by switching the switches, a series connection of the capacitors and the corresponding charging inductor(s) is formed between the input voltage and the output voltage, so as to form a charging path. In a discharging process, by switching the switches, each capacitor and one of the corresponding discharging inductors are connected in series between the output voltage and ground voltage level, so as to form plural discharging paths. The charging process and the discharging process are arranged in alternating and repetitive manner, to convert the input voltage to the output voltage. | 2021-10-21 |
20210328508 | MULTI-CAPACITOR BOOTSTRAP CIRCUIT - Aspects of the disclosure provide for a circuit. In some examples, the circuit includes a first transistor, a second transistor, a third transistor, a first capacitor, and a second capacitor. The first transistor comprises a drain terminal coupled to an input voltage node, a source terminal coupled to a first node, and a gate terminal coupled to a second node. The second transistor comprises a drain terminal coupled to a third node, a source terminal coupled to a fourth node, and a gate terminal coupled to a fifth node. The third transistor comprises a drain terminal coupled to a sixth node, a source terminal configured to couple to a gate terminal of a switching transistor, and a gate terminal coupled to a seventh node. The first capacitor is coupled between the first node and the third node. The second capacitor is coupled between the fourth node and the sixth node. | 2021-10-21 |
20210328509 | EMULATED CURRENT GENERATION CIRCUIT OF POWER CONVERTING CIRCUIT AND METHOD THEREOF - An emulated current generation circuit of a power converting circuit, providing an emulated current includes an AC component current and a DC component current, includes a first current circuit, a second current circuit, a combination circuit and a calibration circuit. The first current circuit generates a ramp signal as the AC component current. The second current circuit is coupled to an output stage of power converting circuit to provide a sensing current. The DC component current is generated after performing a sample-and-hold processing on the sensing current. The combination circuit is coupled to the first current circuit and second current circuit respectively to combine the AC component current and DC component current into an emulated sensing current. The calibration circuit is coupled to the first current circuit, second current circuit and combination circuit to dynamically adjust the ramp signal according to the emulated sensing current and sensing current. | 2021-10-21 |
20210328510 | Current Sharing for a Multi-Phase Power Converter - A power stage of a multi-phase power converter includes: a first switch device configured to connect an output node of the power stage to a supply voltage in a first switching state of the power stage; a second switch device configured to connect the output node to ground in a second switching state of the power stage; driver circuitry configured to set the power stage in either switching state or a non-switching state, a duration of each state and a timing transition between the states being indicated by a control signal; current sense circuitry configured to measure current flowing through at least one of the switch devices; and timing circuitry configured to adjust the timing transition between switching states so as to change an effective duration of the first and/or second switching state relative to a reference duration defined by the control signal, based on magnitude of the measured current. | 2021-10-21 |
20210328511 | CIRCUITS AND TECHNIQUES FOR POWER REGULATION - Boot-strapping systems and techniques for circuits are described. One or more solid-state switches of a switched regulation circuit may be implemented using core transistors and the boot-strapping systems, rather than I/O transistors. | 2021-10-21 |
20210328512 | METHODS AND SYSTEMS FOR POWER MANAGEMENT - An apparatus comprises a plurality of voltage sources, one or more processors embedded with the plurality of voltage sources, and memory storing processor executable instructions that, when executed by the one or more processors, cause the apparatus to modify duty cycles of the voltage sources, and to modify timing for each phase of a multiphase cycle. In some cases, the apparatus: transfers, for each phase of the multiphase cycle, power from a different source of a plurality of sources to a load; determines, for each phase of the multiphase cycle, an input voltage associated with the transferred power, an output voltage associated with the transferred power, and current from the source associated with the transferred power; determines a duty cycle associated with the source; modifies duty cycles of the voltage sources; and modifies timing for each phase of the multiphase cycle. | 2021-10-21 |
20210328513 | POWER SOURCE DEVICE - A DC/DC converter includes N inductors and N power modules which correspond to N phases. The N inductors each include a plurality of inductor chips that are electrically connected in parallel to each other. The plurality of inductor chips are mounted separately on a main mounting surface and a sub-mounting surface of a printed circuit board. The sub-mounting surface is opposite to the main mounting surface. | 2021-10-21 |
20210328514 | DUAL DC-DC CONVERTER - A dual DC-DC converter includes a controller signaling a plurality of switch sets for charging a first battery connected to a first DC output and a second battery connected to a second DC output. Each of the switch sets includes a high-side switch configured to switch a DC electrical input to a common node and a low-side switch configured to switch a ground to the common node. A filter capacitor is connected between each of the DC outputs and a ground. A mode switch is connected between the DC outputs and is opened to allow the dual DC-DC converter to be operated with each of the DC outputs having different voltages for independently charging the batteries at different states of charge. The mode switch is closed when the voltages on each of the DC outputs are equal or within a predetermined threshold. | 2021-10-21 |
20210328515 | POWER SOURCE DEVICE - A DC/DC converter includes N inductors and N power modules which correspond to N phases. At least one of the N power modules is mounted on a sub-mounting surface that is opposite to a main mounting surface of a printed circuit board. | 2021-10-21 |
20210328516 | OUTPUT-SIDE CONTROLLER WITH SWITCHING REQUEST AT RELAXATION RING EXTREMUM - A control circuit comprising an output controller coupled to an output side of a power converter. The output controller comprises a switch control signal generator to receive a feedback signal representative of an output of the power controller and to communicate a control signal to an input controller coupled to an input side to control a turn ON of a power switch. The control signal is generated in response to the feedback signal and is communicated in response to an enable signal. The output controller comprises an extremum locator to generate the enable signal in response to a winding signal representative of an instantaneous voltage on an output terminal of an energy transfer element and the extremum locator enables the switch control signal generator such that the transition of the power switch from the OFF state to the ON state occurs substantially when the winding signal reaches an extremum. | 2021-10-21 |
20210328517 | UNIVERSAL OUTPUT CURRENT REGULATION FOR A FLYBACK CONVERTER - Disclosed is a universal primary-only output current regulation for a flyback converter. A controller determines a peak sense resistor voltage responsive to a desired average output current for the flyback converter during a continuous conduction mode of operation. After a power switch transistor is cycled on, the controller monitors a sense resistor voltage to determine when the sense resistor voltage equals the peak sense resistor voltage. The controller switches off the power switch transistor when the sense resistor voltage equals the peak sense resistor voltage to maintain an average output current for the flyback converter equal to the desired average output current. | 2021-10-21 |
20210328518 | INTELLIGENT ARCHITECTURE FOR ACTUATOR MOTOR DRIVE POWERED FROM WIDE-INPUT HIGH-VOLTAGE DIRECT CURRENT - An intelligent architecture system is provided. The intelligent architecture system includes an input line, an output line and an intelligent architecture operably interposed between the input line and the output line. The intelligent architecture is configured to control a voltage of the output line in accordance with a voltage of the input line. | 2021-10-21 |
20210328519 | CONTROLLING A SWITCH ACROSS AN ISOLATION BARRIER - An apparatus comprises an energy transfer device that operates one or more input switches of an input side of an electrical isolation device to transfer energy through the isolation device to an output side of the electrical isolation device for activating a switch. The apparatus comprises a voltage conversion device that converts the energy from an input voltage of the input side to an output voltage to control the switch when the energy transfer is active. The apparatus comprises a passive turn off device that passively deactivates the switch when the energy transfer is inactive. The passive turn off device is disabled from deactivating the switch when the energy transfer is active. | 2021-10-21 |
20210328520 | ACF CONVERTER, VOLTAGE CONVERSION METHOD, AND ELECTRONIC DEVICE - An Active Clamp Flyback (ACF) converter includes a transformer module, a clamping module, and a controller. The controller is configured to: after the transformer module starts secondary side discharging, control the clamping module to start receiving leakage inductance power from the transformer module; and after controlling the clamping module to stop receiving the leakage inductance power from the transformer module, control the clamping module to release the leakage inductance power to the transformer module. The leakage inductance power released by the clamping module to the transformer module is used by the transformer module to restore a soft switching state based on the leakage inductance power. In a process of transferring the leakage inductance power to a clamping capacitor, the clamping module is in an enabled state. This reduces a loss caused by the clamping module to the leakage inductance power, and helps reduce overall loss caused by the ACF converter. | 2021-10-21 |
20210328521 | METHOD FOR OPERATING A POWER CONVERTER - A method of operating a thyristor-based line-commutated multi-phase power converter on a multi-phase AC voltage connection point, which is supplied by an AC voltage network. Between the AC voltage connection point and an AC voltage connection of the power converter, a series circuit of modules is arranged for each phase. Each of the series circuits has a first electronic switching element, a second electronic switching element, and an electric energy storage device. The voltages of the phases of the AC voltage connection point are measured and, if an undervoltage is detected on a phase of the AC voltage connection point, an additional voltage adding to the voltage of that phase is generated by way of the series circuit of modules allocated to that phase in such a way that the voltage of that phase is increased, at least temporarily. | 2021-10-21 |
20210328522 | RECTIFIER ASSEMBLY - A rectifier assembly includes: a mounting base; and one or more rectification modules configured to be received in the mounting base, each rectification module including: an electronic network including one or more electronic elements configured to convert alternating current (AC) electrical power at an input of the rectification module to direct current (DC) electrical power at an output of the rectification module. Each of the one or more rectification modules is configured to be electrically connected to a DC bus of a driving apparatus that is separate from and independent of the rectifier assembly. | 2021-10-21 |
20210328523 | Voltage Source Converter Generating a Pulse Train Using Two Voltage Levels - A voltage source converter is configured to generate a pulse train using two voltage levels. The voltage source converter includes a first converter arm coupled between a junction and a first DC terminal having a first voltage level and a second converter arm coupled between the junction and a second DC terminal having a second voltage level. At least one of the first and second converter arms comprises cells. A string of capacitors is coupled between the first and second DC terminals. A control unit is configured to control a group of cells used in a transition between the first and second voltage levels for commutating a current running through a corresponding one of the first and second converter arms involved in the transition. | 2021-10-21 |
20210328524 | MICROELECTRONICS DEVICE AND METHOD FOR PRODUCING A MICROELECTRONICS DEVICE - A microelectronics device, in particular a thin-film electronics device, having at least one bearer substrate and having at least one pyramidally layered, piezo stack situated on the bearer substrate, which stack has at least one piezo element and at least one electrode, in particular a floor electrode, and having at least one contact opening situated on the at least one electrode. The microelectronics device has a diffusion blocking element that is situated on the at least one electrode at least partly at a distance from the piezo element, and/or the contact opening forms a contact surface that is at most as large as one one-thousandth of a surface of the at least one piezo element, and/or a length of an electrical path from the at least one contact opening to the at least one piezo element corresponds to at least twice the circumference of the at least one contact opening. | 2021-10-21 |
20210328525 | VORTEX-INDUCED VIBRATION WIND ENERGY HARVESTING DEVICE - A vortex-induced vibration wind energy harvesting device, including an array consisting of a plurality of oscillators and a plurality of piezoelectric microelectromechanical systems (MEMSs), is provided. An oscillator is mounted on each of the piezoelectric MEMSs. When any one of the oscillators is oscillated by and resonant with vortex shedding due to an incoming airflow, its vortices in the wake will enhance the oscillation of the downstream oscillators, so that overall oscillation of the oscillators in the array is strengthened. The piezoelectric MEMSs are deformed by the vibration of these oscillators to generate voltage and current to output. In the present invention, the oscillators are arranged closely. When the airflow passes the array, even weak airflow can generate periodic force and cause significant oscillation due to resonance. The MEMS can convert mechanical energy into electrical energy and output it in order to achieve the purpose of wind energy harvesting. | 2021-10-21 |
20210328526 | Large Dynamic Range Electric Motor - An efficient, large dynamic range electric motor system and method of operating same, including a frame, at least a first rotor-stator pair, together having a first dynamic range, and a second rotor-stator pair, having a second dynamic range, with the first and second pairs mounted within the frame for rotation about a common central axis of an output shaft, mounted for rotation about the first axis and configured to transfer torque from the first and second pairs. A clutch is configured to isolate at least one of the first and second pairs away from the output shaft, thereby establishing an at least one isolated pair, and preventing torque transfer between the at least one isolated pair and the output shaft. A controller is connected to the first and second pairs and is configured to control power delivery to the first and second pairs. | 2021-10-21 |
20210328527 | Method and Control System for Controlling an Electric Motor - A method for controlling an electric motor, the method including determining a planned reference speed of the electric motor; determining a pulse-width modulation (PWM) switching frequency based on the planned reference speed; and controlling the electric motor with an alternating current produced by PWM switching with the determined PWM switching frequency. A control system for controlling an electric motor and an industrial robot including a control system, are also provided. | 2021-10-21 |
20210328528 | MOTOR AND BRUSHLESS WIPER MOTOR - A motor includes: a stator having an annular stator core and multiple teeth protruding radially inwards from the stator core; a coil wound around the teeth; a shaft rotating around the rotation axis radially inside of the stator core; a rotor core fixed to the shaft; magnets positioned on the outer peripheral surface of the rotor core; a salient pole positioned between magnets adjacent to each other in the circumferential direction; an applying portion applying a voltage to the coil; and an applying control portion controlling the applying portion. The ratio of the number of magnetic poles of the magnets and the number of teeth is 2:3. The voltage is a rectangular wave, and its application is started when the tip of the salient pole does not face an opening in the teeth. | 2021-10-21 |
20210328529 | CONTROL DEVICE AND METHOD FOR REDUCING THE COMMUTATION ANGLE ERROR OF AN EC MOTOR - A control device ( | 2021-10-21 |
20210328530 | Multispeed Alternating Current Motor - A system is for a machine having an alternating current (AC) power source with a first side and a second side, one or more windings, an AC polarity detector, a Hall effect device, two or more pairs of power switches, and a motor controller. The motor controller determines which of the power switches to open or close to obtain a direction of current flow through the one or more windings based on signals from the AC polarity detector and the Hall effect device. | 2021-10-21 |
20210328531 | System and Method for Generating a High Frequency Switching Signal for a Power Converter - A control device ( | 2021-10-21 |
20210328532 | Angular Position Error Estimation At Standstill For High-Frequency Voltage Injection - According to an aspect, there is provided an apparatus for performing angular position error estimation. The apparatus operates ( | 2021-10-21 |
20210328533 | DC Bus Discharge Control Method and System, Computer Device, and Storage Medium - The present disclosure relates to a DC bus discharge control method, including that: an active discharge instruction is received; a motor current signal is acquired according to the active discharge instruction; the motor current signal is converted into a current signal in a stator coordinate system; a voltage control signal in the stator coordinate system is output based on the current signal in the stator coordinate system and a random current reference instruction of a preset stator coordinate system; and the voltage control signal in the stator coordinate system is converted into a three-phase voltage control signal, and a working state of a switching device is controlled according to the three-phase voltage control signal. | 2021-10-21 |
20210328534 | MOTOR CONTROL DEVICE - A motor control device includes a command current derivation unit that derives a command current vector based on a command torque for a brushless motor, a phase difference derivation unit that derives a phase difference between a direction of a real d-axis of rotating coordinates of vector control and a direction of an estimated d-axis thereof, a change unit that changes a direction of the command current vector derived by the command current derivation unit according to the phase difference, and a drive control unit that drives the brushless motor based on the command current vector whose direction is changed by the change unit. | 2021-10-21 |
20210328535 | RESTRICTING UNDESIRED MOVEMENT OF A HAPTIC ACTUATOR - A method for minimizing undesired movement of a moving mass of an electromagnetic load may include detecting undesired movement of the moving mass based on real-time measurements of one or more parameters associated with the electromagnetic load and, responsive to detecting undesired movement of the moving mass, affecting a signal applied to the moving mass to reduce the undesired movement. | 2021-10-21 |
20210328536 | CURRENT SENSE CIRCUIT WITH ALTERNATING MEASUREMENT PATHS - A system includes a motor and a motor controller coupled to the motor. The motor controller includes a current sense circuit configured to: receive a first phase current sense measurement on a first measurement path; receive the first phase current sense measurement on a second measurement path; receive a second phase current measurement on the first measurement path; receive the second phase current on the second measurement path; average the first phase current sense measurement on the first measurement path with the first phase current sense measurement on the second path; and average the second phase current sense measurement on the first measurement path with the second phase current sense measurement on the second path. | 2021-10-21 |
20210328537 | AC Electric Motor Control Device - Provided is an AC electric motor control device capable of detecting, in an AC electric motor drive device, abnormal operation of an AC electric motor or abnormal operation due to, for example, a sudden change of a load without an erroneous operation regardless of the operational state of the AC electric motor. When driving a three-phase AC electric motor by an inverter, inside a controller, an electric motor constant is calculated using at least one of the current, voltage, and rotational speed of the electric motor and the variation of the constant value is analyzed, thereby detecting abnormal operation of the electric motor or abnormal operation of a load device connected to the electric motor. In order to analyze the constant, a variation to be determined to be abnormal is preset or an abnormal value is calculated in comparison with the accumulated values of past constant changes. Alternatively, only the variation of the constant calculated in the controller is extracted to detect abnormality. | 2021-10-21 |
20210328538 | DIRECT-CURRENT POWER SUPPLY DEVICE, MOTOR DRIVE DEVICE, BLOWER, COMPRESSOR, AND AIR CONDITIONER - A direct-current power supply device includes a reactor, a bridge circuit that converts alternating-current voltage output from an alternating-current power supply, which is connected to the reactor, into direct-current voltage, a capacitor that smoothes the output voltage of the bridge circuit, a current detector that detects a first current flowing as an alternating current between the alternating-current power supply and the bridge circuit, a current detector that detects a second current flowing as a direct current between the bridge circuit and the capacitor, an overcurrent determination unit that determines on the basis of a detected first current value whether or not the first current is an overcurrent, and an overcurrent determination unit that determines on the basis of a detected second current value whether or not the second current is an overcurrent. The bridge circuit stops operating when a determination result of either the overcurrent determination unit or the overcurrent determination unit indicates an overcurrent. | 2021-10-21 |
20210328539 | MOTOR CONTROL DEVICE - A motor control device controls a motor. The motor control device is provided separate from the motor. The motor control device includes a switch provided in an electrical conduction path for the motor. The motor control device detects a temperature of the switch. The motor control device controls the switch between an on state and an off state. | 2021-10-21 |
20210328540 | Waterproofing Mounting System for Attaching Solar Modules to a Roof - A roof mounting system for the attachment of an article to a roof, the system comprising a plurality of PV modules each having at least one corner and a frame member, a flashing member having a top surface; an upstanding sleeve attached to the top surface of the flashing member; an elevated water seal having a borehole formed therethrough, the elevated water seal further comprising at least one screw for providing a waterproof seal between the article and the roof structure; and whereby the plurality of PV modules are interlocked in a way to provide a corner-to-corner coupling arrangement supported above the roof through the frame members of the plurality of PV modules. | 2021-10-21 |
20210328541 | WEATHER PROTECTED GEAR MECHANISM FOR TILTABLE SOLAR PANEL ARRAY - Device for securing an orientation of photovoltaic panels includes a stem for supporting an array assembly of photovoltaic panels for producing an electrical current when exposed to sunlight. The array assembly also includes eye blades positioned on a side opposite to a photovoltaic panel carrying side. The device further includes a joint interconnecting the stem and the eye blades of the array assembly. The joint includes a hollow horizontal conduit and a bolting mechanism for adjustably coupling the eye blades to lateral ends of the horizontal conduit. A side of each eye blade facing the horizontal conduit carries an eye blade gear that cooperatively meshes with a conduit gear carried at or near a lateral end of the horizontal conduit to secure the array assembly at a predetermined angle relative to a longitudinal axis passing through the stem. | 2021-10-21 |
20210328542 | MULTI-POINT PARALLEL SYNCHRONOUS DRIVE DEVICE AND APPLICATION THEREFOR - Multi-point parallel synchronous drive device, which includes a drive mechanism and several stages of driven mechanisms drivingly connected. The drive mechanism comprises a first power output for rotatably connecting with a power output shaft, and a second power output disposed below the first power output and parallel to the first power output along a power output direction. The several stages of the driven mechanism are arranged at intervals in the power output direction. The second power output of the drive mechanism is drivingly connected with a power input of the adjacent driven mechanism along the power output direction, and the adjacent two-stage driven mechanisms are drivingly connected along the power output direction. The driven mechanism at any stage comprises a power output for rotatably connecting with the power output shaft. The device can be applied to the a solar tracking system, with the main shaft as the power output shaft. | 2021-10-21 |
20210328543 | PHOTOVOLTAIC ARRAY AND AGRICULTURAL DUAL METHOD OF USE: AGRIVOLTAICS - A method of simultaneous use of agricultural land for food production, biodiversity creation, and renewable power generation through the mounting of photovoltaic panel arrays at a distance of 7 meters (22.9659 feet) to 11 meters (36.0892 feet) from one array row to the following array row, to allow for adequate passage of mechanized farm equipment to pass between array rows, in addition to accommodating various livestock grazing activities, orchard planting, and beekeeping activities. The method of operation is optimized for energy generation, while keeping with the local landscape and native agricultural activities on the land to improve agricultural efficiency of the land. | 2021-10-21 |
20210328544 | PHOTOVOLTAIC MODULE OR ARRAY SHUTDOWN - A photovoltaic (PV) system can include a plurality of PV modules and circuitry configured to receive an indication of a status of the PV system and to, in response to the indication, determine whether to switch between a first state in which the PV modules output DC power and a second state in which the PV modules do not output power. | 2021-10-21 |
20210328545 | PHOTOVOLTAIC MODULE - A photovoltaic module according to one embodiment of the present invention comprises: a photovoltaic panel; and a junction box electrically connected to the photovoltaic panel and mounted on the rear side of the photovoltaic panel. The junction box comprises: a circuit unit including a circuit board; a case accommodating the circuit unit and having a remaining empty space; and an air discharge member mounted on the case, for allowing air flow inside and outside the case. | 2021-10-21 |
20210328546 | PHOTOVOLTAIC DIRECT-CURRENT BREAKING APPARATUS - This application discloses a photovoltaic direct-current breaking apparatus, including a positive connection terminal and a negative connection terminal for connecting a photovoltaic string and a photovoltaic energy converter, a first diode, a first switch, a convector circuit, and an energy absorption circuit, where the first switch, the convector circuit, and the energy absorption circuit are connected in parallel. The convector circuit can effectively avoid arc discharge and ablation generated when the first switch cuts off a direct-current circuit between the photovoltaic string and the photovoltaic energy converter. The first diode can effectively bypass energy stored by an energy storage device in the photovoltaic energy converter, helping reduce required specifications of a semiconductor device in the convector circuit. The energy absorption circuit can also effectively reduce required specifications of the semiconductor device and a varistor. | 2021-10-21 |
20210328547 | DC-DC CONVERTER FOR PHOTOVOLTAIC ENERGY STORAGE SYSTEM AND METHOD FOR CONTROLLING SAME - An embodiment provides a DC-DC converter for sensing a grounded state and a method for controlling same in a photovoltaic energy storage system. Specifically, the converter can sense a grounded state on the basis of the magnitude of voltage applied to a resistor and provide a notification. | 2021-10-21 |
20210328548 | OSCILLATOR CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT - The present invention provides an oscillator circuit and a semiconductor integrated circuit, which can suppress the upper limit of the frequency of a clock signal due to an error of the constant current circuit. The oscillator circuit of the present invention includes a constant current circuit, an oscillator, and a current limiting circuit. The constant current circuit generates a first output current according to a supply voltage. The current limiting circuit receives the first output current and generates a second output current, and establishes an upper limit for the second output current when the supply voltage drops below a lower limit of a guaranteed operational range of the constant current circuit. The oscillator generates a clock signal according to the second output current. By establishing the upper limit for the second output current, the upper limit of the frequency of the clock signal can be suppressed. | 2021-10-21 |
20210328549 | OSCILLATOR CIRCUIT AND RADIO RECEIVER - There are provided an oscillator circuit and a radio receiver capable of reducing a frequency fluctuation of an oscillation frequency to a small extent. There is provided an oscillator circuit including an LC oscillator circuit, an amplitude detection circuit, and a bias generation circuit, in which the LC oscillator circuit includes an inductor and at least one variable capacitance element, the amplitude detection circuit detects an oscillation amplitude of the LC oscillator circuit and converts the oscillation amplitude into a DC voltage, and the bias generation circuit compares the DC voltage with a voltage for generating a bias signal, the voltage changing on the basis of a temperature fluctuation of the bias generation circuit, calculates a difference between the DC voltage and a voltage after the change, and generates, on the basis of the difference, a bias signal that reduces a fluctuation in the oscillation amplitude, to control the oscillation amplitude. | 2021-10-21 |
20210328550 | HIGH-POWER TERAHERTZ OSCILLATOR | 2021-10-21 |
20210328551 | AMPLIFIER MODULES WITH POWER TRANSISTOR DIE AND PERIPHERAL GROUND CONNECTIONS - A power amplifier module includes a module substrate, a power transistor die, and a heat spreader. The module substrate has first, second, and third module pads exposed at a mounting surface. The power transistor die has an input/output surface that faces the mounting surface, an opposed ground surface, an input pad electrically coupled to the first module pad, an output pad electrically coupled to the second module pad, and an integrated power transistor. In an embodiment, the power transistor is a field effect transistor with a gate terminal coupled to the input pad, a drain terminal coupled to the output pad, and a source terminal coupled to the ground surface. The heat spreader has a thermal contact surface that is physically and electrically coupled to the ground surface of the power transistor die. An electrical ground contact structure is connected between the thermal contact surface and the third module pad. | 2021-10-21 |
20210328552 | POWER AMPLIFIER MODULES INCLUDING TOPSIDE COOLING INTERFACES AND METHODS FOR THE FABRICATION THEREOF - Power amplifier modules (PAMs) having topside cooling interfaces are disclosed, as are methods for fabricating such PAMs. In embodiments, the method includes attaching the RF power die to a die support-surface of a module substrate. The RF power die is attached to the module substrate in an inverted orientation such that a frontside of the RF power die faces the module substrate. When attaching the RF power die to the module substrate, a frontside input/output interface of the RF power die is electrically coupled to corresponding substrate interconnect features of the module substrate. The method further includes providing a primary heat extraction path extending from the transistor channel of the RF power die to a topside cooling interface of the PAM in a direction opposite the module substrate. | 2021-10-21 |
20210328553 | DISTORTION COMPENSATION DEVICE, WIRELESS COMMUNICATOR, PREDISTORTER, DISTORTION COMPENSATION METHOD, AND COMPUTER PROGRAM - A distortion compensation device includes: a first distortion compensation circuit having a first distortion compensation characteristic for compensating for a first distortion occurring in an output of an amplifier, the first distortion compensation circuit being configured to compensate for the first distortion; a second distortion compensation circuit having a second distortion compensation characteristic for compensating for a second distortion occurring in the output of the amplifier, the second distortion compensation circuit being configured to compensate for the second distortion; and an update unit configured to update the second distortion compensation characteristic. The first distortion includes a non-linear distortion and a memory effect distortion, the second distortion is a distortion whose temporal change is quicker than the first distortion, and the update unit updates the second distortion compensation characteristic at a higher frequency than an update frequency of the first distortion compensation characteristic. | 2021-10-21 |
20210328554 | HIGH-LINEARITY DIFFERENTIAL TO SINGLE ENDED BUFFER AMPLIFIER - A differential to single-ended buffer amplifier with a swing suppression resistor in the differential amplification architecture is shown. The differential to single-ended buffer amplifier has a positive input terminal, a negative input terminal, a differential to single-ended operational amplifier (DISO op amp), and a swing suppression resistor. The DISO op amp has a non-inverting input terminal and an inverting input terminal respectively coupled to the positive input terminal and the negative input terminal, and it has a single-ended output terminal that outputs the output signal of the differential to single-ended buffer amplifier. The swing suppression resistor is connected between the negative input terminal of the differential to single-ended buffer amplifier and the non-inverting input terminal of the DISO op amp. | 2021-10-21 |
20210328555 | LOW-POWER APPROXIMATE DPD ACTUATOR FOR 5G-NEW RADIO - Systems and methods are disclosed herein for providing efficient Digital Predistortion (DPD). In some embodiments, a system comprises a DPD system comprising a DPD actuator. The DPD actuator comprises a Look-Up Table (LUT), selection circuitry, and an approximate multiplication function. Each LUT entry comprises information that represents a first set of values {p | 2021-10-21 |
20210328556 | Amplifier With Power Combination And Internal Redundancy And Modular Housing - An amplifier arrangement has a plurality of function strings, which are required for nominal operation. In addition, the amplifier arrangement has a redundancy circuit and a redundant function string including a redundant converter and a redundant amplifier. If a function string is faulty, the redundancy circuit supplies the input signals of the faulty function string to the redundant function string. In addition, a high-frequency system with an inner housing and an outer housing is described, wherein an air gap separates the inner housing and the outer housing from one another so that high-frequency signals can be transmitted via the air gap between the inner housing and the outer housing. | 2021-10-21 |
20210328557 | HIGH-FREQUENCY AMPLIFIER - A MIM capacitor is included in any one or more of a first matching circuit and a second matching circuit. The mat capacitor performs impedance matching of a fundamental wave included in a high-frequency signal with a transmission line, and forms a short-circuit point for a harmonic included in the high-frequency signal at a connection point with the transmission line. | 2021-10-21 |
20210328558 | POWER AMPLIFIER CIRCUIT - A power amplifier circuit includes a first amplification path including a first power amplifier, a second amplification path including a second power amplifier, a first switching circuit configured to electrically connect either the first amplification path or the second amplification path and a first output terminal to each other, a second switching circuit configured to electrically connect an input terminal and any one of a plurality of second output terminals to each other, and a matching circuit configured to electrically connect the first output terminal and the input terminal to each other and achieve impedance matching between the first output terminal and the input terminal. | 2021-10-21 |
20210328559 | SYSTEMS WITH ADC CIRCUITRY AND ASSOCIATED METHODS - Systems with object detection capabilities may include a radio detection and ranging (RADAR) system. The RADAR system or other portions of the systems may include analog-to-digital converter circuitry. The analog-to-digital converter circuitry may be implemented as pipeline analog-to-digital converter circuitry having multiple stages. Each stage may include multiplying digital-to-analog converter circuitry having a sampling network and amplifier circuitry. The amplifier circuitry may be implemented as a two-stage amplifier. One or more transistors in the two-stage amplifier may receive adaptive control signals that counteract bias current changes across the one or more transistors due to supply voltage changes. | 2021-10-21 |
20210328560 | INTEGRATED PHASE DIFFERENCE MEASUREMENT - A system may include a first power detector to measure a power level of a signal on a first transmitter channel, a second power detector to measure a power level of a signal on a second transmitter channel. The system may include a combiner to provide a combined signal associated with the signal on the first transmitter channel and the signal on the second transmitter channel, and a third power detector to measure a power level of the combined signal. The system may include a processing circuit to determine a relative phase difference between the signal on the first transmitter channel and the signal on the second transmitter channel based on results of measuring the power level of the signal on the first transmitter channel, measuring the power level of the signal on the second transmitter channel, and measuring the power level of the combined signal. | 2021-10-21 |
20210328561 | POWER AMPLIFIER, POWER AMPLIFIER CIRCUIT, AND POWER AMPLIFIER DEVICE - A power amplifier includes a first transistor, a second transistor, and a third transistor that are formed on a semiconductor substrate, and a bump that is electrically connected to an emitter of the first transistor and that is provided so as to, when the semiconductor substrate is viewed in plan, overlay a first disposition region where the first transistor is disposed, a second disposition region where the second transistor is disposed, and a third disposition region where the third transistor is disposed. | 2021-10-21 |