40th week of 2021 patent applcation highlights part 67 |
Patent application number | Title | Published |
20210313841 | SYSTEM FOR WIRELESSLY TRANSMITTING ENERGY AT A NEAR-FIELD DISTANCE WITHOUT USING BEAM-FORMING CONTROL - A method includes receiving an indication that a wireless-power receiver is located within one meter of a wireless-power transmission system and is authorized to receive wirelessly-delivered power from a wireless-power transmission system. The method includes, in response to receiving the indication, selecting a power level at which to amplify a radio frequency (RF) signal using a power amplifier (PA). In accordance with a determination that transmitting the RF signal to the wireless-power receiver would satisfy safety thresholds, the method includes instructing the PA to amplify the RF signal using the power level to create an amplified RF signal, and providing the amplified RF signal to the one or more antennas. The one or more antennas are caused to, upon receiving the amplified RF signal, radiate RF energy that is focused within an operating area that includes the wireless-power receiver while forgoing any active beamforming control. | 2021-10-07 |
20210313842 | POWER RECEIVING APPARATUS, POWER TRANSMITTING APPARATUS, CONTROL METHODS THEREOF, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - A power receiving apparatus comprises a power receiving unit configured to wirelessly receive power from a power transmitting apparatus; and a transmitting unit configured to, in a state where both power reception by the power receiving unit and reception of power transmitted to the power receiving apparatus from an external apparatus via a cable are detected, transmit, to the power transmitting apparatus, information for restricting power transmission for activating the power receiving apparatus, wherein the information being information for restricting power transmission during the period of time from when the power transmission is stopped until a predetermined period has elapsed. | 2021-10-07 |
20210313843 | ELECTRONIC DEVICE FOR REMOVING, FROM DATA COMMUNICATION SIGNAL, INTERFERENCE DUE TO WIRELESS POWER AND OPERATING METHOD THEREFOR - According to various embodiments, an electronic device comprises: a communication circuit for receiving a data communication signal including an interference signal by means of a power signal generated by a wireless power transmission device; and at least one processor, wherein the at least one processor can be configured to receive information related to the power signal from the wireless power transmission device through the communication circuit, estimate information about a channel with the wireless power transmission device, and use the communication circuit so as to remove, before decoding the data communication signal, the interference signal from the data communication signal on the basis of the information related to the power signal and the information about the channel Other various embodiments are possible. | 2021-10-07 |
20210313844 | METHOD FOR CONFIRMING STATE INFORMATION OF WIRELESS CHARGING, AND ELECTRONIC DEVICE THEREFOR - Various embodiments of the present invention relate to an apparatus and a method for identifying wireless charging status information in an electronic device. An electronic device may include a housing including a first plate, a second plate facing away from the first plate, and a side surface member for at least partially surrounding a space between the first plate and the second plate, a display positioned in the space and viewed through the first plate, a conductive coil parallel to the second plate and disposed between the display and the second plate, a wireless charging circuit electrically connected to the conductive coil, a sensor circuit electrically connected to the wireless charging circuit and the conductive coil, and a processor operatively connected with the display, the wireless charging circuit and the sensor circuit, wherein the sensor circuit may receive a first analog ping signal for wireless charging from an external electronic device, through the conductive coil, receive at least one second analog ping signal within a time selected after the first analog ping signal received, count the number of the second analog ping signals received within the selected time, and provide a notification signal to the processor if the number exceeds a first threshold. Other embodiments are also possible. | 2021-10-07 |
20210313845 | Predictive Phase Tracking In Wireless Power Delivery Environments - Systems and methods are described for receiving wireless power and providing wired power. In some embodiments, a predictive phase estimation apparatus comprises a transceiver module configured to receive a plurality of beaconing signals from a wireless client during a beacon cycle. The predictive phase estimation apparatus also comprises a phase compensation module configured to store the received plurality of beaconing signals, a phase predictor module is coupled to the transceiver module and configured to calculate predictive phases based on the received plurality of beaconing signals and based on beaconing signals received from the wireless client prior to the beacon cycle, and a signal converter coupled to the transceiver module. The signal converter is configured to form transmission signals based on the predictive phases and supply the transmission signals to the transceiver module. The transceiver module also transmits the transmission signals for delivery of wireless power to the wireless client. | 2021-10-07 |
20210313846 | WIRELESS CHARGING METHOD, DEVICE TO-BE-CHARGED AND WIRELESS CHARGING SYSTEM - Disclosed are a wireless charging method, a device to-be-charged and a wireless charging system. The method can be applied to the wireless charging system, which includes the device to-be-charged and a wireless charging device. The device to-be-charged includes a wireless receiver circuit and a battery. The wireless receiver circuit is configured to receive an electromagnetic signal transmitted by the wireless charging device, and convert the electromagnetic signal into an output current to charge the battery. The method includes: determining, according to a detected actual output voltage of the wireless receiver circuit, whether the device to-be-charged and the wireless charging device are misaligned with each other during a wireless charging process; and setting a target output voltage of the wireless receiver circuit as the actual output voltage, in response to determining that the device to-be-charged and the wireless charging device are misaligned with each other. | 2021-10-07 |
20210313847 | METHOD OF DETECTING PRESENCE OF IMPLANTED POWER TRANSFER COIL - A method and apparatus related to detecting the presence of a power transfer coil implanted in a patient are disclosed. According to the aspect, an external device of a medical implant system is provided, the external device having an external coil and processing circuitry. The processing circuitry is configured to monitor a resonance frequency associated with the external coil. When the resonance frequency changes as a distance between the external coil and an expected location of an internal coil, then the processing circuitry is configured to conclude that the internal coil has been detected. When the resonance frequency ramps up to a steady state value at a rate that falls below a rate threshold, then the processing circuitry is configured to conclude that the internal coil is connected to an internal load. | 2021-10-07 |
20210313848 | METHOD FOR EVALUATING ELECTROMAGNETIC PERFORMANCE OF ELECTRIC MACHINES IN PARTICULAR OF PERMANENT-MAGNET MACHINES - Method for evaluating electromagnetic performance of a permanent-magnet machine, wherein the method is implemented in a computer processer or in a controller of a permanent-magnet machine, calculating the magnetic field distribution by a sub-domain method; using current density of the equivalent current sheet to represent the boundary condition, iterating by the sub-do-main method and by the magnetic circuit method until a convergent result is obtained, calculating the electro-magnetic performance parameters on basis of the convergent result, so as to evaluate the electromagnetic performance. | 2021-10-07 |
20210313849 | ELECTRIC MOTOR COMPRISING AN INTEGRALLY FORMED INNER ROTOR CORE - An integrally molded internal rotor core of a brushless electric motor includes a central bore, and the rotor core is manufactured by a cold extrusion process. | 2021-10-07 |
20210313850 | ROTOR STRUCTURE OF PERMANENT MAGNET MOTOR - A rotor structure of permanent magnet motor includes a rotor and a plurality of magnetic sets arranged on the rotor. The rotor includes a body portion of a ring shape, and each one of the magnetic sets is arranged sequentially on the body portion along the ring shape of the rotor and further comprises a first permanent magnet respectively. In addition, each one of the first permanent magnets are arranged inside the body portion sequentially along the ring shape of the body portion in such a way that the magnetic flux emitted therefrom is configured to emit in a first direction toward the curvature center of the body portion. | 2021-10-07 |
20210313851 | Multi-Layer Axial and Radial flux Vernier Permanent Magnet Motor - A motor comprising a shaft, an array of stator assemblies rigidly attached to the shaft, each stator assembly includes a stator yoke having a toroid shape fixed around the shaft and having a number of slots at radial and axis directional faces with windings within the slots of the stator yoke, and a rotor assembly rotatively attached to the shaft to enclose the array of stator assemblies, the rotor assembly has a rotor drum with sections, each section embraces one stator assembly, each section has two axial-flux permanent magnet arrays attached on axial-directional inner surfaces of the section and has one radial-flux permanent magnet array attached on a radial-directional inner surface of the section furthest from the shaft, wherein the axial-flux and the radial-flux permanent magnet arrays with the number of pole pairs equals the number of the stator slots plus or minus the number of stator winding pole pair. | 2021-10-07 |
20210313852 | Motor with Outer Rotor - A motor with an outer rotor, including an inner stator, an outer rotor with a cylindrical structure having an open end, a controller, and a cooling fan. The outer rotor is rotatably sleeved at one end of the inner stator in an axial direction of the inner stator; the controller is arranged at the other end of the inner stator; the cooling fan is annularly arranged in a circumferential direction of the outer rotor at one end of the outer rotor close to the controller, and is located in an avoidance space formed between the controller and the outer rotor, so as to convey air to the controller and the outer rotor. | 2021-10-07 |
20210313853 | ROTOR FOR AN ELECTROMAGNETIC MOTOR OR GENERATOR WITH TAPERED BRANCHES - The invention relates to a rotor ( | 2021-10-07 |
20210313854 | ELECTRIC MOTOR WITH DIFFERENT STAR POINTS - An electric motor includes: a rotor with a first number of permanent magnets, wherein each permanent magnet encompasses a first circular sector; a stator with a second number of pole feet, wherein a first group of coils is electrically connected via a first star point, wherein a second group of coils is electrically connected via a second star point to be conductive, wherein the second star point is electrically insulated from the first star point, wherein a coil of the first group of coils is arranged between two coils of the second group of coils; and a controller for applying drive signals to the first group of coils so as to provide the rotor with a torque with respect to the stator, and for applying a control signal that differs from the drive signals to at least one coil of the second group of coils. | 2021-10-07 |
20210313855 | ROTOR AND MOTOR HAVING SAME - One embodiment of the present invention relates to a rotor and a motor having same, the rotor comprising: a rotor core; and a plurality of magnets arranged to be spaced apart from each other on an outer circumferential surface of the rotor core, wherein the rotor core includes: a body; and protrusions protruding obliquely inward at a predetermined angle from an inner circumferential surface of the body, wherein a predetermined gap (G | 2021-10-07 |
20210313856 | HAIRPIN WINDING ELECTRIC MACHINE - An electric machine includes a stator core defining slots and a winding disposed in the core and having three phases. Each of the phases has at least two parallel paths including hairpins interconnected to form at least two continuous circuits between a terminal and a neutral. The hairpins of each path include: a first type of hairpins (first hairpins) each having first and second legs spaced apart by a span of five slots; a second type of hairpins (second hairpins) each having first and second legs spaced apart by a span of seven slots; and a third type of hairpins (first hairpins) each having first and second legs spaced apart by a span of five or seven slots. | 2021-10-07 |
20210313857 | Corona Protection Tape for Electrical High-Voltage Machine - The invention provides a corona shielding tape for use to form wound insulation by means of VPI impregnation with a pthalic anhydride-free impregnating epoxy resin. The shielding tape may comprise (1) a carrier tape comprised of a polymeric matrix comprising at least one polyvinyl alcohol derivative compound and having an electrically conductive or semi-conductive filler embedded therein, and (1) an adduct of one or more 1H-imidazole derivatives and one or more acrylates, or (2) a complex compound comprising (a) a metal salt selected from the group consisting of zinc, copper, iron, aluminum, and mixtures thereof, and (b) imidazole and/or pyrazole ligands. | 2021-10-07 |
20210313858 | MOTOR - A motor according to an embodiment of the present disclosure may include a housing comprising an accommodation space and a refrigerant supply hole; a stator core disposed in the accommodation space and coupled to an inner circumferential surface of the housing; a rotor core rotatably disposed in the accommodation space; a shaft coupled to a central portion of the rotor core; and a refrigerant supply groove formed as a recess in a portion of the inner circumferential surface of the housing adjacent to a location where the inner circumferential surface of the housing is coupled to the stator core. The refrigerant supply groove may comprise a main groove communicating with the refrigerant supply hole and extending in a circumferential direction of the stator core; and a plurality of branched grooves extending in an axial direction from both sides of the main groove. | 2021-10-07 |
20210313859 | ROTARY ELECTRIC MACHINE - An air chamber serving as a breather chamber and a breather hole that communicates the outside of a case and the air chamber can be easily molded, and breather hole is provided so as to have a degree of freedom in an installation position and volume, so that oil does not easily blow out from case in which rotary electric machine is housed. Case housing rotary electric machine has an inner and outer case portion. Inner case portion has a first coupling portion. Outer case portion has a second coupling portion. The first and second coupling portions are fixed to each other. An air chamber communicated with an inside of inner case portion is formed between outer surface of inner case portion and inner surface of outer case portion. A breather hole that communicates air chamber and an outside of case is formed in outer case portion. | 2021-10-07 |
20210313860 | DRIVE MOTOR OF ELECTRIC VEHICLE HAVING INVERTER HOUSING MOUNTED THEREIN - A drive motor includes an inverter housing mounted therein, which couples an inverter housing to the top or side of a drive motor frame, wherein the inverter coupling bracket includes an inverter housing surface-contacting frame in which support gaps of first and second floor frames, surface-contacting the circumferential surface of a flange coupled to one end of the drive motor frame and the circumferential surface of a bracket coupled to the other end of the drive motor frame in the longitudinal direction, are integrally formed, and an arc-shaped drive motor frame circumferential surface-contacting portion is formed on the lower surface of the inverter housing surface-contacting frame, fixing pieces inclined inward are formed at the left and right ends of the first and second floor frames, respectively, and a fixing protruding piece is formed at each of the front and rear ends of the inverter housing surface-contacting frame. | 2021-10-07 |
20210313861 | METHODS AND APPARATUS FOR KINETIC ENERGY HARVESTING - Kinetic energy harvesting devices are disclosed including, but not limited to, portable and stationary devices that generate electricity from motion resulting from any type of movement including human movement, movement of traveling vehicles, gravitational movement, and movement resulting from stored spring energy. The kinetic energy harvesting devices can be used for charging batteries and powering devices such as personal electronic devices and electric vehicles. | 2021-10-07 |
20210313862 | COOLING DEVICE, MOTOR HOUSING AND MOTOR UNIT - The invention relates to a cooling device with at least one first cooling duct element comprising at least one first cooling duct, and at least one second cooling duct element comprising at least one second cooling duct, where the first and the second cooling duct element each have a circular arc-shaped basic shape around a central axis of the cooling device. The first cooling duct element and the second cooling duct element are arranged concentrically to one another, where the second cooling duct element is arranged with respect to the first cooling duct element in such a way relative to the central axis that the first and the second cooling duct overlie each other along the first and the second cooling duct element at least in part in the radial direction. The invention further relates to a motor housing and a motor unit. | 2021-10-07 |
20210313863 | SLIP RING, SLIP RING UNIT, ELECTRIC MACHINE, AND WIND TURBINE - A slip ring includes an essentially cylindrical contact region defined by a radius and having a contact region which faces in a radially outwards direction. The contact region has a recess in a region of the contact surface, with the recess configured to have a projection extending on an inner side of the recess and/or being interrupted in a tangential direction. The contact region has an annular surface formed with an opening which communicates with the recess and extends towards an axial direction at an incline at an interval of 5 degrees to 45 degrees with respect to a normal of the annular surface. At least two insulating regions are arranged axially adjacent to the contact region and each being defined by a radius, with the radius of the contact region being larger than the radius of the insulating region. | 2021-10-07 |
20210313864 | ELECTRIC COMPRESSOR - There is provided an electric compressor capable of achieving an effective and stable noise reduction effect by making a ground pattern of a control device conductive to a housing at a short distance. An electric compressor | 2021-10-07 |
20210313865 | ELECTRICAL MACHINE HAVING A PLASTIC LAYER AS A PHASE SEPARATOR - A stator of a rotary electrical machine includes a laminated core having grooves, windings inserted into the grooves for forming a multi-phase winding system, and an insulating layer made of plastic and sprayed between partial winding overhangs of the windings of phases inserted immediately one after the other. The insulating layer is formed as a mesh-like structure having junctions and brace-like connections running between the junctions. | 2021-10-07 |
20210313866 | SYSTEM FOR ASSEMBLING A GENERATOR, GENERATOR VERTICAL ASSEMBLY DEVICE AND CORRESPONDING ASSEMBLING METHOD - A system for assembling a generator, preferably a permanently excited generator of a wind turbine, comprising a rotor and a stator. A vertical assembly device connectable to the rotor and the stator is proposed, for guiding the rotor in parallel and coaxially aligned to the stator during assembly, the vertical assembly device comprising a first assembly element being connectable to the rotor, a second assembly element being connectable to the stator, and guiding means for guiding the first assembly element coaxially aligned to the second assembly element. | 2021-10-07 |
20210313867 | TUBULAR LINEAR MOTOR - A tubular linear motor according to the present invention includes a core having a plurality of teeth having a tubular shape and provided on an outer periphery at equal intervals in an axial direction, winding wires of three phases of U-phase, V-phase, and W-phase mounted in slots between the teeth and of the core, and a field magnet having a tubular shape, in which the core is inserted inward so as to be movable in the axial direction, and a north magnetic pole and a south magnetic pole are alternately disposed on the inner periphery side in the axial direction, the field magnet has a yoke between the magnetic poles and in the axial direction, and the tubular linear motor has a two-pole | 2021-10-07 |
20210313868 | RETARDER-EQUIPPED ROTATING ELECTRICAL MACHINE - A retarder-equipped rotating electrical machine includes a rotor, a stator, and a retarder rotor. The stator has teeth at regular intervals in a circumferential direction. One ends of the teeth are disposed to face the rotor. The retarder rotor has a magnetic member continuously in the circumferential direction. The retarder rotor is disposed to face the other ends of the teeth of the stator and configured to rotate integrally with the rotor. A rotor-to-stator pole piece portion having pole pieces at regular intervals in the circumferential direction is disposed between the rotor and the stator. A stator-to-retarder rotor pole piece portion having pole pieces at regular intervals in the circumferential direction is disposed between the stator and the retarder rotor. Both pole piece portions are moved in the circumferential direction to switch between an operation as a motor or generator and an operation as a retarder. | 2021-10-07 |
20210313869 | PERMANENT-MAGNETIC RADIAL ROTATING JOINT AND MICROPUMP COMPRISING SUCH A RADIAL ROTATING JOINT - The invention relates to a permanent-magnetic radial rotary coupling ( | 2021-10-07 |
20210313870 | POWER CONVERSION DEVICE - An output terminal of a contact type charger connected to an AC power supply | 2021-10-07 |
20210313871 | METHOD FOR DISCHARGING CAPACITOR OF RESONANT POWER CONVERSION APPARATUS AT INITIATING OPERATION AND RESONANT POWER CONVERSION APPARATUS THEREOF - A method is provided for operating a resonant power conversion apparatus The method may include charging a capacitor connected to a power source in parallel, and determining a discharge time point and a discharge period of a discharge circuit, where the discharge circuit includes a resistor and a switch connected in series and is connected to the capacitor in parallel. The method may also include outputting, by a switch control circuit, a switch control signal by determining the switch control signal based on the discharge time point and the discharge period, and discharging the charged capacitor through the resistor based on the switch control signal applied to the switch. A resonant power conversion apparatus for performing the above-described method is provided. | 2021-10-07 |
20210313872 | PERFORMANCE ENHANCEMENT OF SILICON-BASED DEVICE - A power converter is provided. The power converter includes two or more hybrid switching circuits electrically connected to a source or storage element. Each switching circuit includes a wide bandgap device that is parallel-connected to a silicon-based device. The converter further includes a controller that is operatively coupled to each device of the first and second switching circuits. The controller is configured to operate each hybrid switching circuit by (i) activating the silicon-based device for an activation period, (ii) activating the wide bandgap device for a predetermined duty cycle less than the activation period, (iii) deactivating the silicon-based device while the wide bandgap device is activated, and (iv) deactivating the wide bandgap device. The hybrid switching circuits are sequentially operated to convert an alternating current of a power supply into a link voltage for a power converter, for example. | 2021-10-07 |
20210313873 | POWER CONVERSION DEVICE - A power conversion device, including: a voltage detector that detects a common mode voltage generated upon a switching operation of a power semiconductor device; a voltage superimposer that superimposes the common mode voltage detected by the voltage detector onto an output of the power conversion device to cancel the common mode voltage having a frequency greater than or equal to a switching frequency generated upon the switching operation of the power semiconductor device; and a residual voltage detector that detects the common mode voltage of the power conversion device superimposed by the voltage superimposer. The voltage superimposer includes a feedback mechanism for adding and superimposing the common mode voltage detected by the residual voltage detector onto the output of the power conversion device. The voltage detector includes a first choke coil and a first capacitor. | 2021-10-07 |
20210313874 | ON-BOARD POWER SUPPLY DEVICE - A configuration with which a precharging operation of a capacitive component present on one side of a voltage conversion section can be performed and the current during the precharging operation can be controlled is realized more simply. An on-board power supply device includes a charge circuit section which is connected in parallel with a voltage conversion section between a first conduction path and a second conduction path, and which performs a step-down operation in which a voltage applied to the second conduction path is stepped down by a switch portion switching on and off and an output voltage is applied to the first conduction path. A control unit outputs a second control signal that alternately switches between an on signal and an off signal to the switch portion of the charge circuit section when a predetermined precharging condition is satisfied. | 2021-10-07 |
20210313875 | METHOD TO CONTROL A VARIABLE FREQUENCY SWITCHING CONVERTER, AND CORRESPONDING VARIABLE FREQUENCY CONVERTER APPARATUS - A variable duty cycle switching signal at a switching frequency is applied to a switching current regulation circuit arrangement energizing a current storage circuit assembly. Switching of the variable duty cycle switching signal is controlled by an upper and a lower threshold current level. The upper and lower threshold current levels vary with time following an average current value time variation. Additionally, frequency jitter is introduced in the variable duty cycle switching signal by: defining at least a frequency modulation window around a limit frequency identifying a limit value for an acceptable EMI; and applying an amplitude modulation of the upper and/or lower threshold current levels varying with time, wherein the amplitude modulation is applied in a time interval between times when the switching frequency enters and exit the frequency window. | 2021-10-07 |
20210313876 | ACTIVE NOISE FILTERING FOR SWITCH MODE POWER SUPPLIES - In a described example, a circuit includes a sensor, a controller and an amplifier. The sensor has a sensor input and a sensor output. The sensor input is adapted to be coupled to a chassis of a switch-mode power supply (SMPS). The controller has an input, a timing output and a level output. The input of the control circuit is coupled to the sensor output. The amplifier has a timing control input, a level control input and an amplifier output. The level control input is coupled to the level output of the controller. The timing control input is coupled to the timing output, and the amplifier output is coupled to the sensor input. The amplifier is configured to provide compensation pulses at the amplifier output having magnitude and timing to reduce common-mode noise on the chassis. | 2021-10-07 |
20210313877 | DC-TO-DC CONVERTER - A flying DC-to-DC converter has a capacitor protection function of preventing a flying capacitor from overheating. The flying DC-to-DC converter estimates the temperature of a capacitor on the basis of a switching duty and an inductor current determined according to a result of comparison between an output voltage and a voltage instruction value, and determines whether to perform de-rating. | 2021-10-07 |
20210313878 | 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. | 2021-10-07 |
20210313879 | VOLTAGE REGULATION SYSTEM AND METHOD THEREOF - A voltage regulation system is provided. In the voltage regulation system, a frequency of a clock signal is adjusted and a pulse generator is controlled to output a pulse signal to a switch power stage circuit, to enable the switch power stage circuit to adjust an output voltage and output the adjusted output voltage to the load element. Through the aforementioned configuration, the switch power stage circuit adjusts the output voltage according to the situation of the load element, thus decreasing the power loss of the switch power stage circuit. | 2021-10-07 |
20210313880 | DC/DC Conversion Circuit - A direct current (DC)/DC conversion circuit includes an input end, a power circuit, and an output end, a bypass circuit that is a unidirectional conduction circuit, and a switch disposed between the input end and the power circuit, where the input end is configured to be coupled to an external power supply to receive power to the DC/DC conversion circuit. The bypass circuit is coupled between the input end and the power circuit, the bypass circuit is disposed between the switch and the power circuit, and the bypass circuit is coupled to the power circuit in parallel. The switch is configured to be closed when the input end is reversely coupled to the external power supply to enable a current from a positive electrode of the external power supply to flow back to a negative electrode of the external power supply through the bypass circuit and the switch. | 2021-10-07 |
20210313881 | CHIP EMBEDDED POWER CONVERTERS - A direct current to direct current (DC-DC) converter can include a chip embedded integrated circuit (IC), one or more switches, and an inductor. The IC can be embedded in a PCB. The IC can include driver, switches, and PWM controller. The IC and/or switches can include eGaN. The inductor can be stacked above the IC and/or switches, reducing an overall footprint. One or more capacitors can also be stacked above the IC and/or switches. Vias can couple the inductor and/or capacitors to the IC (e.g., to the switches). The DC-DC converter can offer better transient performance, have lower ripples, or use fewer capacitors. Parasitic effects that prevent efficient, higher switching speeds are reduced. The inductor size and overall footprint can be reduced. Multiple inductor arrangements can improve performance. Various feedback systems can be used, such as a ripple generator in a constant on or off time modulation circuit. | 2021-10-07 |
20210313882 | DYNAMIC ENHANCEMENT OF LOOP RESPONSE UPON RECOVERY FROM FAULT CONDITIONS - A method for dynamic enhancement of loop response upon recovery from fault conditions includes detecting a fault condition in response to a programmed output voltage of a Pulse Width Modulation (PWM) converter decreasing below an input voltage of the PWM converter. A peak voltage is sampled at the end of at least one of a plurality of clock cycles of the PWM converter in response to detecting the fault condition, wherein the peak voltage is proportional to a sensed current conducted through a transistor. An error output of an error amplifier is preset to an error value determined by the peak voltage. A PWM driver is controlled with the error value to drive the transistor. An output load is charged to the programmed output voltage with the transistor in response to the input voltage increasing above the programmed output voltage. | 2021-10-07 |
20210313883 | SWITCHING CONVERTER WITH ANALOG ON-TIME EXTENSION CONTROL - A system includes: 1) a battery configured to provide an input voltage (VIN); 2) switching converter circuitry coupled to the battery, wherein the switching converter circuitry includes a power switch; 3) a load coupled to an output of the switching converter circuitry; and 4) a control circuit coupled to the power switch. The control circuit includes: 1) a switch driver circuit coupled to the power switch; 2) a summing comparator circuit configured to output a first control signal that indicates when to turn the power switch on; and 3) an analog on-time extension circuit configured to extend an on-time of the power switch by gating a second control signal with the first control signal, wherein the second control signal indicates when to turn the power switch off. | 2021-10-07 |
20210313884 | LOW POWER REGULATOR CIRCUIT - Techniques are described that can solve the problem of being low power while running a device on battery and alternatively running on the output of a switching regulator. In a low power mode, a voltage regulator circuit can be powered down and a switch can connect an input voltage of the regulator, e.g., a battery, to the CPU. In addition, internal and/or external loads, such as voltage feedback resistors, can be disconnected in order to further reduce the power consumption. If the device is going into operation, the CPU can be disconnected from the input voltage of the regulator, e.g., the battery, and switched to the output of the regulator. This can ensure that the circuit consumes very little power consumption in standby mode. | 2021-10-07 |
20210313885 | CONSTANT RIPPLE INJECTION CIRCUIT FOR SWITCHING CONVERTER - A system includes an input voltage node configured to provide an input voltage. The system also includes a load and a switching converter coupled between the input voltage node and the load. The switching converter is configured to provide an output voltage to the load based on the input voltage. The switching converter includes gate driver circuitry and a comparator coupled to the gate driver circuitry. The switching converter also includes a constant ripple injection circuit coupled to the comparator. The constant ripple injection circuit is configured to provide a positive current sense signal and a negative current sense signal to the comparator based on the input voltage and the output voltage. | 2021-10-07 |
20210313886 | DC-TO-DC Converter - A DC-to-DC converter includes a first capacitor, first, second, third, and fourth switches connected in series between first and second electrodes of the first capacitor, a second capacitor connected to a connection node of the first switch and the second switch and a connection node of the third switch and the fourth switch, an inductor connected to a connection node of the second switch and the third switch, and a controller that controls an on/off state of each of the first to fourth switches on the basis of a value obtained by applying a reciprocal of a detection current that is a measured current flowing through the inductor to a difference between a first detection voltage and a first voltage instruction value and a difference between a second detection voltage and a second voltage instruction value. | 2021-10-07 |
20210313887 | CONVERTER CIRCUIT, CORRESPONDING DEVICE AND METHOD - A converter circuit includes a half-bridge power circuit with a first and a second switch between an input node and a current node and between the current node ground, respectively. An inductor is coupled between the current node and an output node. Logic control circuitry is configured to switch the first and second switches to a current recirculation state and to a current charge state. The logic circuitry is configured to switch the switches from the current recirculation state to the current charge state as a result of a voltage indicator signal from an output voltage comparator being asserted while starting an on-time counter signal having an expiration value, and from the current charge state to the current recirculation state as a result of the on-time counter signal having reached its expiration value in combination with the voltage indicator signal from the voltage comparator being de-asserted. | 2021-10-07 |
20210313888 | DC-DC CONVERTER FOR SOLAR-LINKED SYSTEM - According to an embodiment, disclosed is a DC-DC converter in a solar-linked system, the DC-DC converter including: an initial charging circuit which connects an inverter with a first node and is used for charging an inverter-side capacitor; an intermediate capacitor; and a switching circuit connected in parallel to the intermediate capacitor and composed of a first switch and a second switch that are connected in series, wherein the initial charging circuit applies a voltage to a first node according to a received control signal, and performs charging of a battery. | 2021-10-07 |
20210313889 | ADAPTER AND CONTROL METHOD THEREOF - The present disclosure relates to an adapter. The adapter includes an input port, a first output port and a second output port, and the adapter further includes: a rectifier circuit having an input terminal being connected to the input port of the adapter; a bus capacitor connected to an output terminal of the rectifier circuit in parallel; a first flyback converter having an input terminal connected to the bus capacitor and an output terminal coupled to the first output port; and a second flyback converter having an input terminal connected to the bus capacitor and an output terminal coupled to the second output port. | 2021-10-07 |
20210313890 | DC TO DC SWITCHED INDUCTOR BOOST CONVERTER - A DC-DC switched inductor boost converter with reduced switch voltage stress including two inductors and two active switches. The two inductors may be configured to charge in parallel when the two active switches are turned on, and the two inductors may be configured to discharge in series when the two active switches are turned off A Switched Inductor Boost (SI-B) converter is proposed with reduced voltage stress across active switches to achieve higher output voltage. The SI-B converter configuration is transformer-less and derived by replacing the diode of the classical switched inductor structure with an active switch. As a result, compared to the existing transformer-less high step-up converter or switched inductor boost converter, certain embodiments have the merit that the switch voltage stress across the active switch is less than the output voltage. | 2021-10-07 |
20210313891 | INTERLEAVED MULTI-LEVEL CONVERTER - Described systems, methods, and circuitries use an interleaved multi-level converter to convert an input signal received at an input node into an output signal at an output node. In one example, a power conversion system includes a first multi-level switching circuit, a second multi-level switching circuit, and a control circuit. The first multi-level switching circuit and the second multi-level switching circuit are coupled to a switching node, the input node, and a reference node. The control circuit is configured to generate, based on the output signal, switching control signals as pulse width modulated signals having a duty cycle to control the output signal and provide the switching control signals to the first multi-level switching circuit and the second multi-level switching circuit. | 2021-10-07 |
20210313892 | DC-TO-DC CONVERTER - A DC-to-DC converter includes a first capacitor, first to fourth switches connected in series between first and second electrodes of the first capacitor, a second capacitor connected to a connection node of the first switch and the second switch and a connection node of the third switch and the fourth switch, an inductor connected to a connection node of the second switch and the third switch, and a controller that performs PWM control. In a case where a failure occurs in the second capacitor, the DC-to-DC converter performs PWM control such that the first switch and the second switch enter the same state and the third switch and the fourth switch enter the same state on the basis of a result of comparison between a first detection voltage that is a measured output voltage and a target output voltage of the DC-to-DC converter. | 2021-10-07 |
20210313893 | SWITCHING MODULE - A switching module includes a determiner to open a first bidirectional switch and close a second bidirectional switch from a first time point over a testing period to determine that the first bidirectional switch has a short circuit failure when a differential absolute value of voltage values detected by voltmeters is equal to a preset voltage threshold value or less, and to open the first bidirectional switch and close the second bidirectional switch from a second time point after a period of n+½ times, where n is a positive integer, the set cycle from the first time point elapses, over a testing period to determine that the first bidirectional switch has a short circuit failure when a differential absolute value of the voltage values detected by the voltmeters is equal to the voltage threshold value or less. | 2021-10-07 |
20210313894 | HYBRID CONTROL OF SWITCHING POWER CONVERTERS - Hybrid control of switching power converters. One example embodiment is a method including: operating the switching power converter such that a charge control switch has a conduction time in each switching cycle; and making adjustments to the conduction time, the adjustments dominated by voltage-mode control when the switching power supply is in a first operational state, and the adjustments dominated by current-mode control when the switching power supply is in a second operational state distinct from the first operational state. | 2021-10-07 |
20210313895 | TRANSFORMERS FOR MULTIPHASE POWER CONVERTERS - A transformer for a multiphase power converter includes a magnetic structure, a first coil configured to electrically couple to an input circuit or an output circuit of a subconverter of the multiphase power converter, and a second coil configured to electrically couple to an input circuit or an output circuit of another subconverter of the multiphase power converter. The magnetic structure includes a top member, a bottom member, and legs extending between the top member and the bottom member in substantially the same direction. The legs include two outer members and two inner members. The first coil is wound about one of the two inner members of the magnetic structure, and the second coil is wound about the other one of the two inner members of the magnetic structure. Other example transformers, and multiphase power converters including transformers are also disclosed. | 2021-10-07 |
20210313896 | CONTROL METHOD FOR DC/DC CONVERTER AND DC/DC CONVERTER - A control method for a DC/DC converter and a DC/DC converter are provided. The method includes: providing a first primary side driving signal to drive the first switch and the fourth switch, and providing a second primary side driving signal to drive the second switch and the third switch; and providing a fifth signal, a sixth signal, a seventh signal and an eighth signal; where switches of the first secondary side bridge arm or the second secondary side bridge arm are turned on or turned off at a zero crossing point of a primary side current, and a driving signal of the second secondary side bridge arm has a phase shift angle with respect to that of the first secondary side bridge arm and the fifth signal is complementary to the sixth signal, and the seventh signal is complementary to the eighth signal. | 2021-10-07 |
20210313897 | POWER ADAPTER - A power adapter, includes: a transformer, including a primary winding and a secondary winding; a primary circuit, including a primary main switch, electrically coupled to the primary winding; a secondary circuit, including a first switch unit and a second switch unit; a first end of the first switch unit and a first end of the second switch unit are coupled to the secondary winding of the transformer, and a second end of the first switch unit and a second end of the second switch unit connected to a first output port and a second output port, respectively; a control circuit, configured to detect output voltages of the first output port and the second output port, and controlling the primary main switch, the first switch unit and the second switch unit to adjust the output voltages of the first output port and the second output port. | 2021-10-07 |
20210313898 | SERIES AC VOLTAGE REGULATOR - A system for controlling and regulating the AC voltage level delivered to a load regardless of the varying input AC voltage comprises a high frequency AC series voltage regulator coupled with a low frequency operating mains transformer. In one embodiment, the LF operating mains transformer operates at electrical mains frequency, which is typically 50 Hz or 60 Hz. The magnetic core of the LF operating mains transformer may be made of industry standard low frequency core material selected from a material group including silicon steel and amorphous core such as ‘Metglass’. The AC series voltage regulator is connected to the primary of the LF operating mains transformer, and the secondary of the LF operating mains transformer is connected in series between the mains input (which receives the unregulated input AC voltage to be regulated) and its output (which outputs the regulated AC voltage to the loads). | 2021-10-07 |
20210313899 | CONTROL FACILITY FOR A DC LINK CONVERTER AND DC LINK CONVERTER - A control facility for a DC link converter includes a power regulator, which determines, based on an actual power determined at least partially at the feed converter, a power-based desired moment component for a kinetic energy store. The invention also relates to a DC link converter controlled by the control facility and to a forming machine, such as a press, with a DC link converter controlled by the control facility. | 2021-10-07 |
20210313900 | POWER CONVERTER ASSEMBLIES WITH BUSBARS - A power converter assembly includes a semi-conductor module, a heat sink mechanically connected to the semi-conductor module, a first busbar assembly on a first side of the heat sink, and a second busbar assembly on a second side of the heat sink opposite from the first side. The first and second busbar assemblies are electrically connected to one another. A power converter assembly includes a plurality of sets of semi-conductor modules, a common heat sink mechanically connected to each semi-conductor module, a first busbar assembly on a first side of the common heat sink, and a second busbar assembly on a second side of the common heat sink opposite from the first side. The first and second busbar assemblies are electrically connected to one another. | 2021-10-07 |
20210313901 | COMPOSITE SWITCHING CIRCUIT - The present disclosure discloses a composite switching circuit, including a plurality of first semiconductor devices connected in series; and at least one second semiconductor device each connected in parallel to one of the plurality of first semiconductor devices. The composite switching circuit is connected to an input source. The second semiconductor device is turned off during a preset period to transfer a current flowing through the second semiconductor device to the first semiconductor devices connected in parallel to the second semiconductor device. | 2021-10-07 |
20210313902 | DIRECT-CURRENT POWER SUPPLY APPARATUS, MOTOR DRIVE CONTROL APPARATUS, BLOWER, COMPRESSOR, AND AIR CONDITIONER - A direct-current power supply apparatus includes: a reactor having one end connected to an alternating-current power supply; a bridge circuit, connected to an opposite end of the reactor, converting an alternating-current first voltage output from the alternating-current power supply into a direct-current voltage; and a current detector detecting an alternating current flowing between the alternating-current power supply and the bridge circuit. The reactor reduces an inductance in accordance with an increase of the alternating current and, when the alternating current exceeds a first current, has an inductance lower than one third of an inductance at which a current does not flow in the reactor. The bridge circuit performs an active operation when the detection value of the alternating current is larger than or equal to the first current and performs a passive operation when the detection value of the alternating current is lower than the first current. | 2021-10-07 |
20210313903 | DIRECT POWER CONVERTER AND CONTROL DEVICE - A direct power converter includes a converter that rectifies a single-phase AC voltage, converts AC power into DC power, and outputs first instantaneous power; a power buffer circuit that receives and supplies power between the converter and a DC link and that performs buffering second instantaneous power; and an inverter that converts a DC voltage at the DC link into a second AC voltage and outputs the second AC voltage. A period for which a current that flows from the converter to the power buffer circuit continuously flows in a period shorter than a half-period of the AC voltage is longer when third power input to the inverter, fourth power output by the inverter, or an average value of the first instantaneous power decreases to a value which is less than a first threshold, from a value which is greater than or equal to a second threshold that is greater than or equal to the first threshold. | 2021-10-07 |
20210313904 | CONTROL SYSTEM FOR MEDIUM VOLTAGE VARIABLE FREQUENCY DRIVE - A drive system ( | 2021-10-07 |
20210313905 | METHOD FOR OPERATING A MULTILEVEL INVERTER WITH A SINUSOIDAL OUTPUT VOLTAGE - A multilevel inverter includes an inner DC source group circuit that generates a plurality of voltage levels, and an outer DC source group circuit that generates a substantially sinusoidal output voltage. The substantially sinusoidal output voltage is generated using, at least in part, the plurality of voltage levels generated by the inner DC source group circuit. An H-bridge circuit supplies the substantially sinusoidal output voltage at alternating polarities to a load. | 2021-10-07 |
20210313906 | DC INVERTER/CONVERTER CURRENT BALANCING FOR PARALLELED PHASE LEG SWITCHES - Current imbalances between parallel switching devices in a power converter half leg are reduced. A gate driver generates a nominal PWM gate drive signal for a respective half leg. A first feedback loop couples the nominal PWM gate drive signal to a gate terminal of a respective first switching device. The first feedback loop has a first mutual inductance with a current path of a first parallel switching device and has a second mutual inductance with a current path of a second parallel switching device. The first and second mutual inductances are arranged to generate opposing voltages in the first feedback loop, so that when all the parallel switching devices carry equal current then the voltages cancel. | 2021-10-07 |
20210313907 | FREQUENCY CONVERTER COMPRISING TEMPORARILY ENABLED RESOURCES - An electronic control system of a frequency converter repeatedly receives one nominal base value at a time for the operation of an electrical machine, determines a respective nominal current value using the respective nominal base value, and determines respective control signals for power semiconductors of the frequency converter using the respective nominal current value. The electronic control system controls the power semiconductors according to the determined respective control signals and thereby supplies the electrical machine with electrical energy such that the electrical machine is operated according to the nominal base value. The electronic control system determines the respective nominal current value and/or the respective control signals according to an enabled determination method if and as long as a permissible extent of use for the enabled determination method is larger than 0. | 2021-10-07 |
20210313908 | OBJECT TABLE COMPRISING AN ELECTROSTATIC CLAMP - Disclosed is an object table for holding an object, comprising: an electrostatic clamp arranged to clamp the object on the object table; a neutralizer arranged to neutralize a residual charge of the electrostatic clamp; a control unit arranged to control the neutralizer, wherein the residual charge is an electrostatic charge present on the electrostatic clamp when no voltage is applied to the electrostatic clamp. | 2021-10-07 |
20210313909 | METHOD FOR CONTROLLING A ROTATIONAL SPEED OF AN ELECTRIC TOOL AND ELECTRIC TOOL - A method for controlling a rotational speed of an electric tool includes starting a motor and controlling the motor to operate at a constant speed which is a preset rotational speed in response to determining that a motor of the electric tool is in a preset low-speed mode, increasing output torque until the motor runs in response to a rotor of the motor being locked, and controlling, based on a relationship between a current rotational speed of the motor and the preset rotational speed, the motor to operate at a constant speed. In this manner, the problem where a rotor is easily locked when the electric tool runs in a low-speed mode in the related art is solved and the electric tool can adaptively adjust an output rotational speed of the motor according to the load condition. | 2021-10-07 |
20210313910 | ARC RESISTANT DRIVE WITH BYPASS AND SYNCH TRANSFER - The systems and methods disclosed relate to arc resistant medium voltage motor control centers for bypass and synch transfer. A drive control system comprising: a variable frequency drive cabinet comprising a variable frequency drive; a power supply line; at least one motor control cabinet having a top portion and a bottom portion, wherein the at least one motor control cabinet is arc resistant, wherein the at least one motor control cabinet comprises: a medium voltage fused bypass controller in the top portion; a medium voltage non-fused transfer controller in the bottom portion; a reactor compartment, wherein the reactor compartment is arc resistant; wherein the variable frequency drive is coupled to the power supply line and the non-fused transfer controller, and the fused bypass controller is coupled to the power supply line. | 2021-10-07 |
20210313911 | AN ACTUATOR WITH AN ELECTRIC MOTOR AND A METHOD OF CONTROLLING THE ELECTRIC MOTOR TO MAINTAIN A CURRENT POSITION - For controlling an electric motor to maintain a current motor position, a motor controller determines the current motor position of the electric motor and selects (S | 2021-10-07 |
20210313912 | ELECTRIC MOTOR SYSTEM - An electric motor system includes a battery, an inverter, an electric motor, a zero-phase switching arm and a control unit. The inverter converts DC power output from the battery into three-phase AC power and outputs the three-phase AC power to the electric motor. A rotor of the electric motor rotates by the three-phase AC power output from the inverter. A neural point of the electric motor is connected to the zero-phase switching arm. A zero-phase current flowing through respective windings of the electric motor is adjusted by switching of the zero-phase switching arm. By this means, in the electric motor system, torque is generated at the rotor also using the zero-phase current as well as a three-phase AC current flowing through the respective windings. | 2021-10-07 |
20210313913 | METHOD FOR CONTROLLING A SYSTEM FOR GENERATING ELECTRIC POWER FOR A POWER DISTRIBUTION NETWORK OF AN AIRCRAFT - A method for controlling a system for generating electric power for a power distribution network of an aircraft, the system for generating electric power comprising a generator, a rectifier, an inverter which produces a voltage according to several fixed-frequency phases, a DC voltage bus which connects the rectifier to the inverter, the control method comprising: —a correction step to determine at least one correction quantity GC, —a step of determining a signal SO for controlling the inverter from the determined correction quantity GC, —a step of determining a signal SG for controlling the generator from the determined correction quantity GC and —a step of transmitting the control signals SO, SG to the inverter and to the generator, respectively. | 2021-10-07 |
20210313914 | CONTROL METHOD FOR OPERATING A SYNCHRONOUS MACHINE - The invention related to a control method for operating a synchronous machine, the machine comprising an exciter connected to a synchronous generator and a controller ( | 2021-10-07 |
20210313915 | INVERTER TYPE ENGINE GENERATOR - An inverter type engine generator includes an alternator operable as a motor for starting an engine; a converter composed of a three-phase rectifying bridge circuit, converting three-phase alternating current output from the alternator into direct current, and operatable as a motor driver for driving the alternator when power is supplied from a power source; and a processor and a memory. The upper and lower three sets of elements of the three-phase rectifying bridge circuit of the converter are configured such that upper elements are configured from duty-controllable switching elements and thyristors connected in parallel therewith, and lower elements are configured from duty-controllable switching elements having diodes. The processor and the memory perform turning off the lower elements and controlling the duty of the thyristors while turning off the upper elements so that an output voltage of the three-phase rectifying bridge circuit is reduced, when a detected terminal voltage of the converter exceeds the target voltage. | 2021-10-07 |
20210313916 | INPUT VECTOR SET FOR POSITION DETECTION OF PM MOTORS - A method of determining angular position (θ) of a rotor of an N-phase permanent magnet motor (PMM). A processor having an associated stored angular position determination (APD) algorithm is programmed to implement the algorithm to cause an associated motor controller to execute steps including forcing one vector at a time a phase vector set of current or voltage vectors to stator terminals of windings for the N-phases a positive and negative magnitude vector, wherein the vector magnitude is sufficiently small to not move the rotor, and a time duration for the forcing current or voltage vectors is essentially constant. The resulting stator current or voltage levels are measured for each current or voltage vector. An N-dimension current vector or voltage vector is generated from superposition of the resulting stator current levels or resulting stator voltage levels. The N-dimension current vector or voltage vector is used to determine angular position. | 2021-10-07 |
20210313917 | ROTARY ELECTRIC MACHINE CONTROL APPARATUS - A rotary electric machine control apparatus is provided which controls energization of a rotary electric machine having a plurality of winding sets. The apparatus includes an energization control circuit that is provided for each of the winding sets and has a switching element related to switching of energization to the winding set, a driver circuit that outputs a drive signal to the switching element through a signal line connected to the switching element, and a protection element that is connected to the signal line and in parallel with the switching element. When combinations of the winding sets and electronic components including the energization control circuit provided for each of the winding sets are regarded as systems, in at least one of the systems, performance of the protection element is differentiated from that in the other system to make noise resistance different from noise resistance in the other system. | 2021-10-07 |
20210313918 | ELECTRIC MOTORS AND DRIVE CIRCUITS THEREFOR - Electric motors and drive circuits therefor are described herein. The drive circuit is configured to operate in a first mode of operation and a second mode of operation. The drive circuit includes an inverter configured to regulate current to a first winding and a second winding of the electric motor in the first mode of operation and to only the first winding in the second mode of operation. The drive circuit also includes a first switch coupled to the second winding and configured to supply line frequency current to the second winding at a first node in the second mode of operation, and a second switch coupled to the second winding and configured to enable selection of regulating current to the second winding using the inverter in the first mode of operation or supplying the line frequency current directly to the second winding in the second mode of operation. | 2021-10-07 |
20210313919 | MOTOR - A motor including: a stator including plural windings that form coils and are connected together at a neutral point; a switching circuit that generates a rotating magnetic field around the stator by switching of a power supply to the plurality of windings; a rotor that rotates in response to the rotating magnetic field generated around the stator; a resistor for current detection that detects a current in the switching circuit and that is disposed between the switching circuit and a grounding point; and a filter element that reduces a fluctuation in potential at the neutral point, the filter element being disposed between the neutral point and the resistor for current detection and being grounded at the grounding point via the resistor for current detection. | 2021-10-07 |
20210313920 | CONTROL UNIT, CONTROL CIRCUIT AND MOTOR VEHICLE - A system comprises a control unit for operating an electrical circuit arrangement connected to an electrical machine, wherein the electrical circuit arrangement is designed to energize a stator of the electrical machine, the control unit being connectable to at least one further circuit arrangement which is designed to energize a rotor of the electrical machine, the control unit being set up to operate the further circuit arrangement. | 2021-10-07 |
20210313921 | CURRENT MEASUREMENT APPARATUS - Integrated circuitry, such as a microcontroller, for controlling an electric motor includes circuitry for measuring a bi-directional current flowing within a coil of the electric motor. The current is sensed by an externally implemented current sensing element, such as a shunt resistor, to produce a differential voltage that is delivered to input pins of the microcontroller, which are protected by electrostatic discharge protection circuits. Current sources implemented within the microcontroller are coupled to the input pins, and work in concert with external resistors to shift the differential voltage so that it is maintained within an appropriate voltage operating range so that an accurate measurement of the bi-directional current can be made by the microcontroller. | 2021-10-07 |
20210313922 | MOTOR DRIVE DEVICE, MOTOR DRIVE METHOD, AND COMPUTER-READABLE MEDIUM HAVING RECORDED THEREON MOTOR DRIVE PROGRAM - Provided is a motor drive device comprising a motor control unit that controls a plurality of upper arm-side switching elements and a plurality of lower arm-side switching elements provided to an inverter for driving a motor; a current determination unit that determines whether a motor current flowing through at least one switching element of the plurality of upper arm-side switching elements and the plurality of lower arm-side switching elements is equal to or smaller than a threshold value; and a short-circuit control unit that performs switching between all-on of the plurality of upper arm-side switching elements and all-on of the plurality of lower arm-side switching elements, on condition that the motor current is equal to or smaller than the threshold value, in a short-circuiting operation of alternately switching all-on of the plurality of upper arm-side switching elements and all-on of the plurality of lower arm-side switching elements. | 2021-10-07 |
20210313923 | MOTOR CONTROLLER - A motor controller includes individual drive circuits, a plurality of energization systems, and a processing circuit that outputs a plurality of individual control signals. The processing circuit executes a first calculation process, a second calculation process, a third calculation process, and a fourth calculation process for each of the energization systems. The first calculation process is a process of calculating individual current command values. The second calculation process is a process of calculating the estimated temperatures of protection targets. The third calculation process is a process of calculating individual limit values. The fourth calculation process is a process of calculating the individual control signals based on the individual current command values that are limited by the individual limit values. The processing circuit calculates the estimated temperatures of the protection targets where current of a target system flows. | 2021-10-07 |
20210313924 | POWER CONVERSION SYSTEM AND CONTROL METHOD FOR VEHICLE MOTOR - A power conversion system includes an inverter having a three-phase circuit including a plurality of power semiconductor devices and configured to supply driving power to a motor according to an applied torque command, and a controller configured to predict a maximum temperature of the inverter based on an actual measured temperature of any one of the plurality of power semiconductor devices and phase current of the motor, and to actively limit the torque command depending on the predicted maximum temperature of the inverter. | 2021-10-07 |
20210313925 | CLAMP ASSEMBLY FOR SOLAR TRACKER - In an example, the solar tracker has a clamp assembly that is configured to pivot a torque tube. In an example, the assembly has a support structure configured as a frame having configured by a first anchoring region and a second anchoring region. In an example, the support structure is configured from a thickness of metal material. In an example, the support structure is configured in an upright manner, and has a major plane region. In an example, the assembly has a pivot device configured on the support structure and a torque tube suspending on the pivot device and aligned within an opening of the support and configured to be normal to the plane region. In an example, the torque tube is configured on the pivot device to move about an arc in a first direction or in a second direction such that the first direction is in a direction opposite to the second direction. | 2021-10-07 |
20210313926 | System for Mounting Solar Panels - A mounting system for mounting a solar panel assembly to a base assembly includes a panel support bracket, a base bracket and a clamp configured to exert a compressive force to hold the panel support bracket and the base bracket together. The clamp comprises a V-shaped clamp body that includes a pair of legs that are spring-loaded to oppose an approximation of the legs by an external compressive force. The clamp includes a pair of receiver slots, with each of the pair of receiver slots located on a corresponding one of the pair of legs. The pair of receiver slots collectively provides a clearance to admit the panel support bracket and the base bracket when the legs are compressed together. | 2021-10-07 |
20210313927 | ELECTRONIC DISPLAY ASSEMBLIES WITH SOLAR PANELS - A solar powered display assembly and systems and methods for the same are provided. An electronic display portion comprising an electronic display within a housing is secured to a structural framework at a position elevated above a ground surface. A solar energy harvesting device is connected to the structure framework at a position above, and spaced apart from, said electronic display portion, wherein said solar energy harvesting device is electrically connected to the electronic display portion. A bulk energy storage device is located below the electronic display portion. A footprint of the solar energy harvesting device is smaller than footprints for the electronic display portion and bulk energy storage device. | 2021-10-07 |
20210313928 | METHOD AND APPARATUS FOR DETERMINING KEY PERFORMANCE PHOTOVOLTAIC CHARACTERISTICS USING SENSORS FROM MODULE-LEVEL POWER ELECTRONICS - A method and apparatus for using MLPE data for characterizing real-world operation a PV module. In one embodiment, the method comprises obtaining a plurality of temperature measurements, wherein each temperature measurement is a measure, by an MLPE proximate to a PV module, of temperature; obtaining a plurality of DC voltage measurements, wherein each DC voltage measurement of the plurality of DC voltage measurements is a measure by the MLPE of a DC voltage of the PV module; obtaining a plurality of DC current measurements, wherein each DC current measurement of the plurality of DC voltage measurements is a measure by the MLPE of a DC current of the PV module; obtaining racking design information with respect to the PV module; and determining a plurality of PV module temperatures for the PV module based on the plurality of temperature measurements and the racking design information. | 2021-10-07 |
20210313929 | COMPENSATION CIRCUIT AND METHOD FOR POTENTIAL INDUCED DEGRADATION, POWER MODULE, AND PHOTOVOLTAIC SYSTEM - This application discloses a compensation circuit and method for potential induced degradation, a power module, and a photovoltaic system. The compensation circuit includes a switch, a first resistor, and a controller. The switch and the first resistor are connected in series, a first end of the compensation circuit is connected to a positive output end PV+ of a photovoltaic module, and a second end of the compensation circuit is connected to a second end of a first DC-DC converter. The controller is configured to control the switch to be closed when output voltage of the photovoltaic module is less than preset voltage, so that the first DC-DC converter provides electric energy of the battery to the second end of the compensation circuit. A second resistor is connected between the positive output end PV+ and a negative output end PV− of the photovoltaic module. | 2021-10-07 |
20210313930 | Oscillator with Reduced Acceleration Sensitivity - The invention relates to an oscillator comprising two resonators, the direction of the vector of acceleration sensitivity of at least one first resonator of the at least two resonators, said direction being relative to the mounting surface of said first oscillator, corresponding substantially to the reflected direction that is reflected by a mirror plane of the vector of acceleration sensitivity of at least one second resonator of the at least two resonators, said direction being relative to the mounting surface of said second oscillator. The invention also relates to an oscillator comprising two resonators, the oscillator comprising a resistor which is effectively connected in parallel with one of the resonators and the resistance value of which is less than a hundred times that of the series resonator resistance of the combined resonator at the desired resonant frequency. | 2021-10-07 |
20210313931 | RESONATOR CIRCUIT - The invention relates to a resonator circuit, the resonator circuit comprising a transformer comprising a primary winding and a secondary winding, wherein the primary winding is inductively coupled with the secondary winding, a primary capacitor being connected to the primary winding, the primary capacitor and the primary winding forming a primary circuit, and a secondary capacitor being connected to the secondary winding, the secondary capacitor and the secondary winding forming a secondary circuit, wherein the resonator circuit has a common mode resonance frequency at an excitation of the primary circuit in a common mode, wherein the resonator circuit has a differential mode resonance frequency at an excitation of the primary circuit in a differential mode, and wherein the common mode resonance frequency is different from the differential mode resonance frequency. | 2021-10-07 |
20210313932 | INVERTED DOHERTY POWER AMPLIFIER WITH LARGE RF AND INSTANTANEOUS BANDWIDTHS - Apparatus and methods for an inverted Doherty amplifier operating at gigahertz frequencies are described. RF fractional bandwidth and signal bandwidth may be increased over a conventional Doherty amplifier configuration when impedance-matching components and an impedance inverter in an output network of the inverted Doherty amplifier are designed based on characteristics of the main and peaking amplifier and asymmetry factor of the amplifier. | 2021-10-07 |
20210313933 | DEVICES AND METHODS FOR OFFSET CANCELLATION - An offset-cancellation circuit having a first amplification stage with a gain of the first amplification stage and configured to receive an offset voltage of a first amplifier. A storage element is configured to be coupled to and decoupled from the first amplification stage and configured to store a potential difference output by the first amplification stage. The potential difference is determined by the offset voltage of the first amplifier and the gain of the first amplification stage. A second amplification stage is coupled to the storage element and configured to receive the potential difference from the storage element when the storage element is decoupled from the first amplification stage and configured to deliver an offset-cancellation current. The offset-cancellation current is determined by the potential difference and a gain of the second amplification stage. | 2021-10-07 |
20210313934 | METHODS AND APPARATUSES FOR REFLECTION MEASUREMENTS - Techniques are provided to more accurately determine reflected power, reflection coefficient, and/or voltage standing wave to permit prompt protection of components such as power amplifiers and notify communication system operators. This is accomplished by more accurately determining an amplitude and phase of an output reflected signal at an output port of a bidirectional coupler as a function of the following: an amplitude and a phase of a coupled forward signal coupled into a forward coupled port of the bidirectional coupler; an amplitude and a phase of a coupled reverse signal coupled into a reverse coupled port of the bidirectional coupler; an electrical transmission parameter from an input port of the bidirectional coupler to the forward coupled port; an electrical transmission parameter from the input port to the reverse coupled port; and an electrical transmission parameter from an output port of the bidirectional coupler to the reverse coupled port. | 2021-10-07 |
20210313935 | GROUP III NITRIDE-BASED RADIO FREQUENCY TRANSISTOR AMPLIFIERS HAVING SOURCE, GATE AND/OR DRAIN CONDUCTIVE VIAS - RF transistor amplifiers include a Group III nitride-based RF transistor amplifier die that includes a semiconductor layer structure, a conductive source via that is connected to a source region of the Group III nitride-based RF transistor amplifier die, the conductive source via extending through the semiconductor layer structure, and an additional conductive via that extends through the semiconductor layer structure. A first end of the additional conductive via is connected to a first external circuit and a second end of the additional conductive via that is opposite the first end is connected to a first matching circuit. | 2021-10-07 |
20210313936 | Multi-Output Supply Generator for RF Power Amplifiers with Differential Capacitive Energy Transfer - Described are circuits and techniques to increase the efficiency of radio-frequency (rf) amplifiers including rf power amplifiers (PAs) through “supply modulation” (also referred to as “drain modulation” or “collector modulation”), in which supply voltages provided to rf amplifiers is adjusted dynamically (“modulated”) overtime depending upon the rf signal being synthesized. For the largest efficiency improvements, a supply voltage can be adjusted among discrete voltage levels or continuously on a short time scale. The supply voltages (or voltage levels) provided to an rf amplifier may also be adapted to accommodate longer-term changes in desired rf envelope such as associated with adapting transmitter output strength to minimize errors in data transfer, for rf “traffic” variations. | 2021-10-07 |
20210313937 | SIGNAL RECEIVER AND OPERATION METHOD THEREOF - A signal receiver includes a data sampler receiving a differential input signal having first and second input signals and determining bit values of the differential input signal based on first and second reference voltages, and a reference voltage generator performing a pre-tuning operation and a post-tuning operation to generate the reference voltages. The reference voltage generator performs the pre-tuning operation by generating first and second initial voltages and adjusting one of the initial voltages to generate third and fourth voltages. After the pre-tuning operation, the reference voltage generator performs the post-tuning operation by increasing or decreasing the third voltage to generate the first reference voltage and decreasing or increasing the fourth voltage to generate the second reference voltage based on a comparison result between the third voltage and the first input signal and a second comparison result between the fourth voltage and second input signal. | 2021-10-07 |
20210313938 | POWER AMPLIFIER MODULE - A power amplifier module includes a first amplifier, a power splitter, a second amplifier, a third amplifier, a phase shifter, a combining unit, and a controller. The first amplifier amplifies a first signal and outputs a second signal. The power splitter splits the second signal into a third signal and a fourth signal. The second amplifier amplifies the third signal and outputs a fifth signal. The third amplifier amplifies the fourth signal and outputs a sixth signal. The phase shifter receives the fifth signal and shifts a phase of the fifth signal. The combining unit combines the fifth signal having the phase shifted by the phase shifter and the sixth signal and outputs an amplified signal of the second signal. The controller outputs a first control signal for controlling a power level of the sixth signal output from the third amplifier. | 2021-10-07 |
20210313939 | AMPLIFIER WITH BUILT IN TIME GAIN COMPENSATION FOR ULTRASOUND APPLICATIONS - An ultrasound circuit comprising a trans-impedance amplifier (TIA) with built-in time gain compensation functionality is described. The TIA is coupled to an ultrasonic transducer to amplify an electrical signal generated by the ultrasonic transducer in response to receiving an ultrasound signal. The TIA is, in some cases, followed by further analog and digital processing circuitry. | 2021-10-07 |
20210313940 | DIFFERENTIAL AMPLIFIER - A differential amplifier is provided. The differential amplifier includes a first load, a second load, a current source, a differential pair circuit, a first and a second switch circuit. The differential pair circuit includes a first transistor, a second transistor, a third transistor, and a fourth transistor. The first switch circuit controls the first and the second transistors, and the second switch circuit controls the third and the fourth transistors. Through the control and selection of the first and second switch circuits, a differential pair is selected in the differential pair circuit to receive and process a first input signal and a second input signal for signal. | 2021-10-07 |