| 05th week of 2021 patent applcation highlights part 68 |
| Patent application number | Title | Published |
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| 20210036578 | ELECTRIC DRIVE - An electric drive includes a motor and a transmission for transferring torque from the motor to a tool. The transmission includes a plurality of planetary rollers which are driven by a rotary shaft of the motor, and an output ring which is connectable to the tool, and which is driven by the planetary rollers. The transmission further includes a roller casing which is secured to a housing of the motor, and which supports parallel planetary shafts upon which the planetary rollers are mounted for rotation relative to the roller casing, and a bearing having an inner race which engages the roller casing, and an outer race which engages the inner periphery of the output ring. | 2021-02-04 |
| 20210036579 | Stator Structure - In a first aspect, a stator structure for an electrical machine is provided. The stator structure comprises a circumferential support having an external rim to support a plurality of electrical windings. The circumferential support comprises an air entrance, an air distribution channel and a plurality of axial air openings. The air entrance provides a passage between the air distribution channel and an outside of the stator structure. The air distribution channel extends through a portion of the circumferential support to circumferentially distribute an air flow from the air entrance. The plurality of axial air openings provides a passage between the air distribution channel and an outer side of the external rim to guide an air flow from the air distribution channel to the outer side of the external side. The plurality of axial air openings comprises an aperture, wherein the apertures are sized and spaced such that the air flow is substantially uniform along the circumference of the outer side of the external rim. In a further aspect, an electrical generator comprising a stator structure according to any of the examples herein described is provided. | 2021-02-04 |
| 20210036580 | PROPULSOR SYSTEM WITH INTEGRATED PASSIVE COOLING - Propulsors (e.g., an electric motor mechanically coupled to a rotor) are described that passively cool the electric motors via an airflow path through the electric motor and out of the rotors. One embodiment comprises a method of cooling an electric motor. The method comprises operating the electric motor of a propulsor for an aircraft to rotate a rotor of the propulsor, where the rotor has one or more air outlets, and where the electric motor has a housing that includes one or more air inlets in fluid communication with the one or more air inlets. The method further comprises generating, by rotating the rotor using the electric motor, an airflow through the electric motor from the one or more air inlets to the one or more air outlets to cool the electric motor. | 2021-02-04 |
| 20210036581 | MOTOR COOLING MEMBER - The motor cooling member includes: an oil feed port to which oil is fed; a plurality of discharge ports that discharge oil toward a motor; a basis oil passage connected to the oil feed port; and a plurality of derived oil passages each of which is formed by branching from the basis oil passage so as to correspond to each of the plurality of discharge ports and is formed so as to connect the basis oil passage to each of the discharge ports, and which are formed in different shapes from each other. | 2021-02-04 |
| 20210036582 | ELECTRIC MACHINE - An electric machine, including a stator and a rotor shaft having a cooling device, which shaft carries at least one slip ring, which has a lateral surface, which electrically contacts a contact element fixed on the stator, and which is at least partially accommodated in a recess of the rotor shaft, wherein an extension section of the slip ring, which is at least partially accommodated in the recess, extends beyond the lateral surface in one or both axial directions of the rotor shaft. | 2021-02-04 |
| 20210036583 | TRANSPORT UNIT FOR A LONG STATOR LINEAR MOTOR - In order to provide a transport unit for a long stator linear motor, wherein the orientation thereof can be easily determined on the long stator linear motor during operational use, according to the invention, the transport unit ( | 2021-02-04 |
| 20210036584 | MOTOR - A motor includes a rotor rotatable about a center axis extending vertically, a stator radially opposing the rotor, a bracket holding the stator, a circuit board including an upper surface with a first wiring pattern and a lower surface with a second wiring pattern, and a first fixing portion having conductivity and fixing the circuit board to the stator. The stator includes a stator core having conductivity. The first fixing portion includes a board holding portion holding the circuit board, and a stator fixed portion fixed to a portion of the stator core. The board holding portion is in contact with the first wiring pattern and the second wiring pattern. | 2021-02-04 |
| 20210036585 | Methods Circuits Devices Systems and Functionally Associated Machine Executable Code for Powering a Machine Monitoring Unit - Disclosed are methods, circuits, devices, systems and functionally associated machine executable code for powering a machine monitoring unit. A machine monitoring unit (MMU) monitors operational parameters of a machine during operation. A set of machine emissions sensors, convert a machine emission of a specific type, generated by the machine during machine operation, into an electric signal containing information about one or more characteristics of the respective converted emission. Communication circuits to enable communication of the information within the signal to another device. A machine emission energy harvester harvests and converts energy emissions from the monitored machine into electric energy suitable to provide power for operation of the MMU. | 2021-02-04 |
| 20210036586 | ELECTRIC MOTOR VEHICLE AUXILIARY UNIT - An electric motor vehicle auxiliary unit includes a housing which is at least partly electrically conductive. An electric drive motor having stator-side motor coils, a unit mechanism which is driven by the electric drive motor, and a motor electronics circuit board are each arranged within the housing. The motor electronics circuit board includes motor electronics having control and power electronics which control the electric drive motor, and at least one housing ground connection which is electrically conductively connected directly to the housing via a housing ground element. A punch comb arrangement has at least two plug pins. A plug connection connects the motor electronics circuit board to an engine control unit. The plug connection is electrically connected to the motor electronics circuit board via the punch comb arrangement. The housing ground element is designed as a plug pin of the at least two plug pins of the punch comb arrangement. | 2021-02-04 |
| 20210036587 | HYBRID SQUIRREL-CAGE ROTOR - The invention relates to a squirrel-cage rotor of an asynchronous machine ( | 2021-02-04 |
| 20210036588 | METHOD AND DEVICE FOR PRODUCING ROTORS AND STATORS INCLUDING THE PRODUCTION OF CONNECTION WIRES - A method used for producing rotors and stators of electric motors, including the production of connection wires, and comprises the following steps:
| 2021-02-04 |
| 20210036589 | INSULATION OF WINDING ENDS OF A STATOR WINDING - A stator of an electric machine includes a laminated core having slots for receiving windings of a multiphase winding system. The windings have winding ends, which are encased with an insulator across a partial length. In order to encase the winding ends with the insulator, a strand of a thermoplastic material is extruded onto the winding ends via a nozzle. During extrusion, the nozzle is moved relative to the winding end along the longitudinal extent thereof and an oscillating movement of the nozzle transversely to the longitudinal extent of the winding end overlays the movement along the longitudinal extent. As a result the thermoplastic material lies on the winding end and around the respective winding end in the form of loops. | 2021-02-04 |
| 20210036590 | COOLING-OPTIMISED HOUSING OF A MACHINE - In a method for producing a cooling structure over a surface of a housing of a dynamo-electric rotational machine, at least one material is applied in layers by an additive manufacturing method to the surface of the housing, omitting at least one predefined region. As a result of the application of material, at least two elevations are formed, with a cooling channel being formed between the two elevations. | 2021-02-04 |
| 20210036591 | DUAL ROTOR-TYPE MOTOR HAVING IMPROVED STATOR STRUCTURE, AND COMPRESSOR COMPRISING SAME - A dual rotor-type motor, according to one embodiment of the present invention, comprises: a stator having a coil wound therearound; an outer rotor; and an inner rotor, wherein the stator comprises inner teeth facing the inner rotor, and outer teeth facing the outer rotor, wherein the inner teeth are misaligned in a rotating direction by as much as an angle configured with respect to the outer teeth, and thus the present invention may enable the reduction of a torque ripple to a satisfying level, even without having to change the design of the stator structure into a complicated form. | 2021-02-04 |
| 20210036592 | ACTUATOR DEVICE - An actuator device includes a support part, a first movable part, a second movable part, a first connecting part connecting the first movable part to the second movable part, a second connecting part connecting the second movable part to the support part, a spiral coil provided to the second movable part a first external terminal provided to the support part, and a first wiring connected to an inner end portion of the coil and the first external terminal. The first wiring includes a lead wiring connected to the first external terminal, and a straddle wiring provided to the second movable part so as to straddle the coil and connected to the inner end of the coil and the lead wiring. The width of the straddle wiring is larger than the width of the coil, and the thickness of the straddle wiring is smaller than the thickness of the coil. | 2021-02-04 |
| 20210036593 | DRIVING MECHANISM - A driving mechanism is provided, including a fixed portion, a movable portion, a driving assembly and a connecting element. The movable portion may move relative to the fixed portion and is used for holding an optical module. The driving assembly moves the movable portion relative to the fixed portion. The connecting element is movably connected to the fixed portion and the movable portion. | 2021-02-04 |
| 20210036594 | COIL ACTUATOR - An actuator is introduced that utilizes the forces that result from placing a current carrying coil in a magnetic field to rotate a connected object about at least one axis. In some embodiments, the introduced coil actuator includes a coil of conductor coupled to an arm or other type of structural element that extends radially from an axis of rotation. The introduced coil actuator can be utilized to provide motion control in a variety of different applications such as gimbal mechanisms. In some embodiments, the introduced coil actuator can be implemented in a gimbal mechanism for adjusting an orientation of a device such as a camera relative to a connected platform such as the body of an aerial vehicle. | 2021-02-04 |
| 20210036595 | EDDY CURRENT DECELERATING APPARATUS - A decelerating apparatus includes a brake member, primary and secondary permanent magnets and pole pieces. The primary permanent magnets are arranged in a circumferential direction to face an inner or outer peripheral surface of the brake member with a gap in between. Each of the primary permanent magnets has two opposite magnetic poles arranged in a radial direction. The secondary permanent magnets and the pole pieces are placed in the gap and arranged in the circumferential direction. Each of the secondary permanent magnets has two opposite magnetic poles arranged in the circumferential direction. Each of the pole pieces is positioned between adjacent secondary permanent magnets. Magnetic pole arrangements of adjacent primary permanent magnets are opposite to each other. Magnetic pole arrangements of adjacent secondary permanent magnets are opposite to each other. Each of the secondary permanent magnets has a trapezoidal cross-sectional shape including an upper base and a lower base. | 2021-02-04 |
| 20210036596 | ELECTRONIC SYSTEM INCLUDING VOLTAGE REGULATORS - An electronic system includes a plurality of voltage regulators configured to convert an input voltage, a plurality of inductors respectively connected to the plurality of voltage regulators to respectively output a plurality of converting currents, and a switching unit configured to select at least one converting current from among the plurality of converting currents in response to a switching control signal and supply power to a load unit based on the selected at least one converting current. | 2021-02-04 |
| 20210036597 | SEMICONDUCTOR MODULE ARRANGEMENT AND METHOD FOR OPERATING THE SAME - A semiconductor module arrangement includes an input stage including a first output terminal and a second output terminal, wherein a first inductive element is coupled to the first output terminal; an output stage including at least one first controllable semiconductor element, a third input terminal coupled to the first inductive element such that the first inductive element is coupled between the first output terminal and the third input terminal, a fourth input terminal coupled to the second output terminal, a third output terminal, and a fourth output terminal; a second controllable semiconductor element and a first capacitive element coupled in series and between a first common node coupled between the first inductive element and the third input terminal, and a second common node coupled between the second output terminal and the fourth input terminal; and a first diode element coupled in parallel to the second controllable semiconductor element. | 2021-02-04 |
| 20210036598 | A TRANSISTOR DEVICE - A transistor device includes a transistor and programmable controller. The controller has an output that controls operation of the transistor. The controller includes analog computing circuitry and optionally digital computing circuitry that may be used to setup the analog computing circuitry. In addition to two connectors for connecting the transistor into an external circuit, the device includes a further connector that provides an input to the controller and through which the control can be programmed post manufacture. The transistor device may be a discrete component in which transistor and controlling circuitry are held in packaging, the three connectors exposed through the packaging in order to connect the device to an external circuit. | 2021-02-04 |
| 20210036599 | CONTROL APPARATUS FOR ELECTRICAL POWER CONVERTER - The control apparatus is used with the electrical power converter working to an inputted one of ac voltage and a terminal-to-terminal voltage at a capacitor into the other. The control apparatus calculates a sine-wave command value for a reactor current based on the ac voltage and an amplitude command value indicating an amplitude of the reactor current. The control apparatus also operates switches SW in peak-current mode control to bring the reactor current into agreement with a command value for the reactor current to which a current correction value is added. The control apparatus sets the current correction value to include a component of fluctuation in the terminal-to-terminal voltage at the capacitor based on the ac voltage Vac. | 2021-02-04 |
| 20210036600 | REDUNDANT ENERGY ACQUISITION CIRCUIT OF POWER MODULE, AND CONTROL METHOD THEREOF - A redundant energy acquisition circuit of a power module includes at least one power semiconductor device, a first capacitor, and a first bypass switch. The redundant energy acquisition circuit of the power module includes: a power supply board acquiring energy from the first capacitor, supplying power to a control board, and charging a discharge circuit. A first charging circuit has one end connected to a positive electrode of the first capacitor and another end connected to the discharge circuit, and charges the discharge circuit when the power supply board is not operating normally. The control board controls the discharge circuit to close. The discharge circuit discharges and triggers the first bypass switch to close after the discharge circuit is closed. | 2021-02-04 |
| 20210036601 | SOFT-START CIRCUIT FOR CONVERTERS, CORRESPONDING CONVERTER DEVICE AND METHOD - A circuit is operated by receiving an input reference signal at an input node, determining a scaling ratio based on the input reference signal, generating a digital input signal as a function of the determined scaling ratio, converting the digital input signal into an analog signal that is a scaled replica of the input reference signal, and providing the analog signal at an output node of the circuit and then, after a duration of time, coupling the input reference signal to the output node. | 2021-02-04 |
| 20210036602 | MAGNETIC BARRIER FOR POWER MODULE - A cascaded configuration of regulator circuits can be co-integrated within a commonly-shared integrated circuit package (such as an integrated electronic module). Such co-integration can include placing a switched-mode regulator circuit in close proximity to a linear regulator circuit. Magnetic field coupling between the regulator circuits is generally a non-linear function of a separation between the circuits. The switched-mode regulator circuit can generate noise that may adversely impact the linear regulator output. Magnetic coupling between the regulator circuits within the module package can be suppressed or eliminated using a magnetic barrier. The barrier can be magnetically permeable and electrically non-conductive. | 2021-02-04 |
| 20210036603 | Multi-Phase High Conversion Ratio Switched Capacitor Power Converter - A method for multi-phase high conversion ratio Switched Capacitor Power Conversion includes sequentially forming one of four subcircuits during a respective timing phase, wherein each subcircuit comprises at most three capacitors. Conversion between an input voltage of an input and an output voltage of an output occurs by sequentially connecting for each respective timing phase, one of the input, the output, a ground, a top plate of a first one of the three capacitors and a bottom plate of the first one of the three capacitors to one of a top plate of a second one of the three capacitors and a bottom plate of the second one of the three capacitors. | 2021-02-04 |
| 20210036604 | MULTI-LEVEL CHARGE PUMP CIRCUIT - A multi-level charge pump (MCP) circuit is provided. The MCP circuit includes a multi-level voltage circuit configured to receive a supply voltage and generate a low-frequency voltage. The multi-level voltage circuit includes a first switch path, a second switch path, and a third switch path each having a respective on-resistance and coupled in parallel between an input node and an output node. In a non-limiting example, the multi-level voltage circuit is configured to activate the first switch path and at least one of the second switch path and the third switch path when the multi-level voltage circuit generates the low-frequency voltage that equals the supply voltage. By activating at least two of the three switch paths to generate the low-frequency voltage, it may be possible to reduce an equivalent resistance of the multi-level voltage circuit, thus helping to improve efficiency and reduce power loss of the MCP circuit. | 2021-02-04 |
| 20210036605 | CHARGE PUMP STABILITY CONTROL - During its first and second residence times, corresponding first and second currents flow between a charge pump and a circuit that connects to one of the charge pump's terminals. Based on a feedback measurement from the charge pump, a controller adjusts these first and second currents. | 2021-02-04 |
| 20210036606 | BOOSTER CIRCUIT - Provided is a booster circuit capable of adjusting a power conversion capacity in accordance with input power and also of stably performing a boost operation. The booster circuit includes a first voltage detection circuit configured to output as a first control signal a result of comparing an input voltage and a first voltage obtained by dividing an output voltage, a first oscillation circuit configured to be controlled to operate based on the first control signal, and a first switched-capacitor booster circuit configured to operate in accordance with a first clock signal provided from the first oscillation circuit. | 2021-02-04 |
| 20210036607 | POWER CONVERSION DEVICE AND METHOD - Various embodiments according to the present invention relate to a power conversion device and method, the device comprising: a converter; a capacitor unit including a plurality of capacitors for storing input voltage input thereto; a switch unit connected to the capacitor unit and including a plurality of switches for selectively connecting at least one capacitor among the plurality of capacitors to the converter; and a controller connected to the capacitor unit and the switch unit, wherein the controller determines at least one capacitor satisfying a specified condition, among the plurality of capacitors, sets at least one switch among the plurality of switches to be turned on, the at least one switch corresponding to the at least one capacitor, and sets at least another switch among the plurality of switches except for the at least one switch, to be turned off, so that the at least one capacitor and the converter are electrically connected and configured to allow at least partial voltage of the input voltage, stored in the at least one capacitor, to be supplied to the converter. Therefore, a power conversion device, disposed on a circuit on which the plurality of capacitors (or cells) is connected in series to a power supply unit, can establish selective connection by using the switch unit, so as to adjust input voltage and provide the adjusted input voltage to the converter, and can reduce switching loss of the power conversion device. Various other embodiments are possible. | 2021-02-04 |
| 20210036608 | Series-Parallel Charge Pump with NMOS Devices - A charge pump having only NMOS devices charges a plurality of capacitors to a parallel charged voltage level by electrically connecting the capacitors in parallel between an input voltage node and a ground by activating a plurality of first NMOS transistor switches and a plurality of second NMOS transistor switches and deactivating a plurality of third NMOS transistor switches. The charge pump then generates a series capacitor output voltage level at a capacitor series output node by electrically connecting and discharging the capacitors in series between the input voltage node and the capacitor series output node by activating the third NMOS transistor switches and deactivating the first NMOS transistor switches and the second NMOS transistor switches. | 2021-02-04 |
| 20210036609 | VOLTAGE CONVERSION APPARATUS - A voltage conversion apparatus is provided. A leakage inductance energy recovery circuit is coupled to a primary side auxiliary winding and a control circuit, and recovers leakage inductance energy of a transformer circuit to supply an operating power to the control circuit. Before a main switch is turned on the next time, leakage inductance energy recovered previously is used to lower a cross-voltage of the main switch, so that transient loss of conduction of the main switch is eliminated or reduced, and circuit efficiency is improved. | 2021-02-04 |
| 20210036610 | METHODS OF PRODUCING INDUCTOR MODULES AND POWER SEMICONDUCTOR SYSTEMS HAVING INDUCTOR MODULES - A method of manufacturing a power semiconductor system includes providing a power module having one or more power transistor dies and attaching an inductor module to the power module such that the inductor module is electrically connected to a node of the power module. The inductor module includes a substrate with a magnetic material and windings at one or more sides of the substrate. Further methods of manufacturing power semiconductor systems and methods of manufacturing inductor modules are also described. | 2021-02-04 |
| 20210036611 | HIGH ENERGY PULSE ON A HIGH-VOLTAGE-DIRECT-CURRENT OFFSET - Pulse power supply systems and methods are disclosed. A method includes providing earth-ground-referenced control circuitry and providing floating pulsed-power circuitry. The method also includes providing a DC offset voltage to the return port of the pulsed-power circuitry with a DC offset module and providing a peak voltage to the pulsed-power circuitry with a DC voltage source. Power is applied from a power source of the control circuitry to a driver of the pulsed-power circuitry via a galvanically-isolating power path and a trigger signal is applied from the control circuitry to the driver via a galvanically-isolated signal path to prompt the driver to produce a driver signal. A voltage pulse is produced between the output port and the return port by closing the switch with the driver signal to couple the peak voltage to the output port. | 2021-02-04 |
| 20210036612 | BATTERY CHARGING CIRCUIT AND BATTERY CHARGING METHOD - A battery charging circuit can include: a primary rectifier circuit configured to rectify an input AC voltage into a rectified voltage signal; a DC-DC converter configured to generate a charging current according to the rectified voltage signal, in order to charge a battery; a control circuit configured to adjust the charging current by controlling an operation state of the DC-DC converter according to a charging requirement, in order to make an average value of the charging current meet the charging requirement; and where the charging current is controlled to be zero when an absolute value of the input AC voltage is lower than a predetermined threshold. | 2021-02-04 |
| 20210036613 | BOOST DC-DC CONVERTER USING DSM, DUTY CONTROLLER FOR BOOST DC-DC CONVERTER, AND METHOD FOR CONFIGURING DUTY CONTROLLER - A boost direct current-to-direct current (DC-DC) converter using a delta-sigma modulator (DSM), the boost DC-DC converter may comprise a boost driving circuit outputting an output voltage to output terminals by boosting an input voltage, a resistance distribution circuit outputting a feedback voltage by distributing the output voltage of the boost driving circuit, a compensator outputting a compensated feedback voltage by compensating for the feedback voltage outputted by the resistance distribution circuit based on a reference voltage, a delta-sigma modulator outputting a digital signal by modulating the compensated feedback voltage and a duty controller outputting a duty control signal for controlling a switching duty of the boost driving circuit by receiving the output of the delta-sigma modulator. | 2021-02-04 |
| 20210036614 | BOOST CONVERTER CONTROL METHOD AND CONTROL APPARATUS - A boost converter control method in one aspect of the present invention is the control method of the boost converter that boosts a voltage input from a power supply and supplies a boosted voltage to a load-side. The control method of the boost converter is securing an output electric power required according to an operation point of a motor connected to the load-side, calculating a lower limit voltage value at which the output voltage of the boost converter does not oscillate, setting a target output voltage of the boost converter to a value equal to or higher than the lower limit voltage, and controlling the boost converter so as to output a voltage according to the target output voltage. | 2021-02-04 |
| 20210036615 | DC TO DC CONVERTER SOURCING VARIABLE DC LINK VOLTAGE - An inverter-converter system includes a DC source, a DC to DC boost converter, a DC link capacitor, an inverter circuit, a variable speed electric machine, and a controller. The DC to DC boost converter receives an input DC voltage from the DC source. The inverter circuit converts the variable boosted voltage to an AC voltage to drive the variable speed electric machine. The controller senses a plurality of parameters from the variable speed electric machine, and controls the DC to DC boost converter to boost up the input DC voltage to a variable output voltage based on the plurality of parameters and/or the voltage (or load) needed by the variable speed electric machine. The design of the inverter-converter system can achieve an electrical efficiency and cost savings for the overall system. | 2021-02-04 |
| 20210036616 | DC-DC CONVERTER - A DC-DC converter generates an output voltage from an input voltage through current-mode control output feedback control using a current sense signal commensurate with a sampled value obtained by sampling a coil current in a switching output stage, for example, at the midpoint of the ON period or the OFF period of the switching output stage. | 2021-02-04 |
| 20210036617 | METHODS AND APPARATUSES FOR A MULTI-MODE REGULATOR ARCHITECTURE - Aspects of the present disclosure generally relate to multi-mode regulators. For example, the multi-mode regulator may include a first transistor having a first terminal coupled to an input voltage and a second terminal coupled to an output of the regulator, a second transistor having a first terminal coupled to the second terminal of the first transistor and a second terminal coupled to a reference potential, pulse width modulation (PWM) control logic having outputs coupled to gates of a first transistor and a second transistor, one or more error amplifiers, and a switch with a first terminal coupled to the gate of the first transistor and a second terminal coupled to the output of one of the one or more error amplifiers. By selectively configuring one or more components of the multi-mode regulator, the regulator may operate according to either a linear regulation mode or a switching regulation mode. | 2021-02-04 |
| 20210036618 | RECONFIGURABLE INDUCTOR - An adjustable inductance system includes a plurality of inductor modules coupled to a corresponding plurality of loads and a pool of at least one floating inductor module that may be coupled in parallel with any one of the plurality of inductor modules. A control circuit monitors the current drawn through the inductor module by the load. If current draw exceeds a threshold, the control circuit couples a floating inductor module to the load. Using the current drawn by the load, the control circuit determines an appropriate inductance value and determines an appropriate inductor configuration for the inductor module, the floating inductor module, or both the inductor module and the floating inductor module to achieve the determined inductance value. The control circuit causes switching elements to transition to a state or position to achieve the inductor configuration. | 2021-02-04 |
| 20210036619 | POWER CONVERSION DEVICE - A magnetically coupled reactor and a DC/DC converter are provided between a DC power supply and an inverter. A first smoothing capacitor is provided between the DC power supply and the coupled reactor. A second smoothing capacitor is provided between the DC/DC converter and the inverter. A controller is provided in order to control switching operations of the inverter and the DC/DC converter. The controller causes semiconductor switching elements composing upper and lower arms of the DC/DC converter to perform complementary operations so as to be alternately turned on/off, and causes left and right legs to operate with their switching phases shifted from each other, thereby electric charges stored in both smoothing capacitors are discharged by energy loss in the coupled reactor and the DC/DC converter. | 2021-02-04 |
| 20210036620 | POWER CONVERTER - The present invention concerns a power converter including a primary stage including at least one first cut-off switch; a control circuit capable of applying a first control signal to said at least one first switch; a secondary stage including at least one second cut-off switch; a control circuit capable of applying a second control signal to said at least one second switch; and a power transmission stage coupling the primary stage to the secondary stage, wherein the control circuit of the secondary stage is electrically isolated from the control circuit of the primary stage. | 2021-02-04 |
| 20210036621 | PRESTART CONTROL CIRCUIT FOR A SWITCHING POWER CONVERTER - The present invention provides a prestart control circuit that measures a reflected voltage on the primary side of a switching power converter. The prestart control circuit pulses the synchronous rectifier switch OPEN and CLOSED, which allows a measurement of the reflected voltage on the primary side of the switching power converter. The reflected voltage is proportionate to the output voltage of the switching power converter. The prestart control circuit uses the reflected voltage to establish the initial duty cycle of the switching power converter. The switching power converter may be any converter that includes a synchronous rectifier, such as a flyback converter or a forward converter, in a single-ended, double-ended and/or multi-phased configuration. | 2021-02-04 |
| 20210036622 | LLCC SECONDARY OVERTONE RESONANT POWER CONVERTER - An LLCC Secondary Overtone Resonant (LLCC-SOR) power converter obtains dramatically higher efficiency with light loads by providing a resonance in the transformer secondary that is approximately tuned to an odd order overtone of the upper primary switching frequency, an upper frequency limit of the primary switching frequency, and a secondary duty cycle control that engages once the upper primary switching frequency limit is reached. The transformer circuit resonates in an LLCC-SOR mode that regulates the output voltage when the maximum frequency limit is reached. In operation, the gain of the resonant circuit is raised above its regulation point under light loads, forcing the controller into duty cycle mode. The secondary current completes an odd number of oscillations per single oscillation of the primary current, and the primary current returns to near zero after each switching transition. Also, a zero-voltage switching condition is maintained on the primary switch. | 2021-02-04 |
| 20210036623 | TWO-STAGE STEP-DOWN CONVERTER - A two-stage step-down converter includes a first stage and a second stage operatively connected to the first stage. The first stage is to step down an input voltage to an intermediate periodic signal and includes a primary side, a secondary side, and a plurality of transformers to electromagnetically couple the primary side and the secondary side to step down the input voltage to the intermediate periodic signal. The primary windings of the transformers are connected in series and the secondary windings are connected in parallel. | 2021-02-04 |
| 20210036624 | POWER CONVERTER - The instant disclosure concerns a power converter including: a primary stage ( | 2021-02-04 |
| 20210036625 | ELECTRONIC CIRCUIT AND WIRELESS POWER TRANSMISSION DEVICE - An electronic circuit to receive input AC signals having different phases, and to control bidirectional switches corresponding to phases to generate, based on input AC signals having the phases, output AC signals having the phases and having a frequency different from a frequency of the input AC signals, the electronic circuit has reference signal circuitry to generate a reference signal having a frequency higher than the frequency of the output AC signals, and a commutation circuitry to control switching between voltage commutation and current commutation, wherein, in the voltage commutation, the commutation circuitry switches the bidirectional switches corresponding to the phases in sequence based on a voltage level of the output AC signals of the phases before and after a time point when an amplitude of the reference signal becomes a specific amplitude value, and in the current commutation, the commutation circuitry switches the bidirectional switches in parallel. | 2021-02-04 |
| 20210036626 | ELECTRICAL POWER CONVERSION SYSTEM AND ASSOCIATED METHOD - The invention relates to a conversion system ( | 2021-02-04 |
| 20210036627 | System and Method for Exciting Low-Impedance Machines Using a Current Source Converter - An energy conversion system includes a low-impedance generator having at least one armature winding set. The armature winding set includes a plurality of single-phase coils. The system also includes a current source converter assembly electrically coupled to an armature of the generator. The current source converter assembly includes at least one current source converter that includes a current source rectifier coupled to a current source inverter via a DC link and at least one capacitor across the plurality of single-phase armature coils. The capacitor(s) of the current source converter(s) is configured to absorb high frequency components of current pulses generated by the current source converter so as to minimize current ripple in a current applied to the plurality of single-phase coils. | 2021-02-04 |
| 20210036628 | SYSTEM AND METHOD FOR POWER CONVERSION - A system and a method for power conversion. The system includes a rectifier; an inverter; a DC-link capacitor coupled between the rectifier and the inverter; and a controller. The controller is configured to obtain a current value at an output of the inverter and a voltage value across the DC-link capacitor, determine an average component and a fluctuating component of an output voltage of the inverter based on the obtained current value and the voltage value, and determine a current reference for controlling the rectifier based on the average component and the fluctuating component of the output voltage. | 2021-02-04 |
| 20210036629 | FOUR-MODE TAP-SWITCHING TRANSFORMER RECTIFIER - Systems and methods for operating a transistor rectifier unit are provided. Aspects include providing a first transformer output and a second transformer output, providing a plurality of rectifier circuits, wherein the plurality of rectifier circuits comprises a first rectifier coupled to the first transformer output and a second rectifier coupled to the second transformer output, and wherein the first rectifier comprises a first output voltage and the second rectifier comprises a second output voltage, operating a plurality of switches based on a plurality of operational modes, wherein the plurality of operational modes comprises a first mode, a second mode, and a third mode, and wherein the plurality of switches comprises a first switch, a second switch, and a third switch. | 2021-02-04 |
| 20210036630 | Bridge Rectifier - The present invention disclosed a bridge rectifier comprising a first switching circuit, a second switching circuit, a third switching circuit, a fourth switching circuit, a first driving circuit, a second driving circuit, a third driving circuit, and a fourth driving circuit. The first driving circuit is electrically connected to the first switching circuit, the second driving circuit is electrically connected to the second switching circuit, the third driving circuit is electrically connected to the third switching circuit, the fourth driving circuit is electrically connected to the fourth switching circuit. In the disclosure, the bridge rectifier should be implemented by the combination of switch circuits with driving circuits. Such that the power dissipation of bridge rectifier could be significantly reduced to improve the function of the overall circuit due to the low impedance of the switching circuit in a closed state. | 2021-02-04 |
| 20210036631 | AC-DC CONVERTER AND AC-DC RECTIFIER - An AC-DC converter can include: a rectifying circuit configured to convert an AC input voltage into a DC voltage, where at least one active switching device is included in one conductive rectifying loop of the rectifying circuit; a control circuit configured to control switching states of the active switching devices according to an output voltage of the AC-DC converter and the AC input voltage, in order to decrease an error between the DC voltage and the output voltage of the AC-DC converter; and a DC-DC converter configured to convert the DC voltage into the output voltage of the AC-DC converter. | 2021-02-04 |
| 20210036632 | UNINTERRUPTIBLE POWER SUPPLY APPARATUS - In the present uninterruptible power supply apparatus (U | 2021-02-04 |
| 20210036633 | METHOD AND DEVICE FOR OPERATING A MULTI-PHASE ELECTRIC MACHINE - The present invention relates to a method and device for operating a multi-phase electric machine. The method comprises the steps of: determining a working point; determining a provisional switching frequency for a pulse width modulation for each of the electrical phases of the multiphase electric machine; determining a respective modulation function curve (m | 2021-02-04 |
| 20210036634 | POWER TRANSMISSION VIA A BIPOLAR HIGH-VOLTAGE DC TRANSMISSION LINK - A converter station has two line-commutated converters for energy transmission via a bipolar high voltage direct current transmission line. In a first operating mode of the converter station the two converters are electrically connected in an anti-parallel circuit to the same pole of the high voltage direct current transmission link and one of the converters is operated as a rectifier and the other converter is operated as an inverter in an network. In a second operating mode the two converters are connected to different poles of the high voltage direct current transmission link and both converters are operated as either rectifiers or inverters in the AC network. In both operating modes a station active power exchanged between the converter station and the AC network is controlled by active power specifications for converter active powers which are exchanged between the converters and the AC network. | 2021-02-04 |
| 20210036635 | CONTROL APPARATUS AND CONTROL METHOD - A control apparatus includes a drive instruction value generator configured to generate a first drive instruction value that is greater than or equal to 0, which corresponds to torque in a first rotation direction, for driving a first motor that applies the torque in the first rotation direction to a shaft, and a second drive instruction value that is less than or equal to 0, which corresponds to torque in a second rotation direction, for driving a second motor, which is different from the first motor, that applies the torque in the second rotation direction, which is an opposite direction to the first rotation direction, to the shaft. | 2021-02-04 |
| 20210036636 | METHOD AND CIRCUIT FOR CONTROLLING OR STARTING A U-SHAPE SINGLE PHASE SYNCHRONOUS PERMANENT MAGNET MOTORS - A method and circuit for controlling or starting a U-shape single phase synchronous permanent magnetic motor (U-SPSPM motor) having a rotor and a stator and coupled to a single phase alternating current (AC) power source through a switch, including estimating back electromotive force (back-EMF) of the motor based on an observer model with inputs indicative of the measured signals, and triggering the switch to supply power to the motor based on the estimates of the back-EMF. | 2021-02-04 |
| 20210036637 | BRUSHLESS DC MOTOR CONTROL UNIT - An electrical switch unit for use with a variable speed electrical device includes a housing for a pair of electrical switching contacts, and an actuator operably connected with one of those contacts. A signaling module is associated with the electrical switch unit, and has signaling circuitry for sensing the movement of the actuator and outputting a signaling module signal indicative of the sensed movement or position of the actuator. A power module with a power switching device controllably supplies power from the DC power source to the DC motor at a speed corresponding to the sensed movement or position of the actuator. A control module receives the signaling module signal, and outputs a control module signal to control the power module. | 2021-02-04 |
| 20210036638 | APPARATUS AND METHODS FOR REDUCING GENERATOR FREQUENCY VARIATION - A system includes a generator configured to be electrically coupled to a grid, an engine configured to drive the generator, and a solid state generator coupled between the grid and an energy storage device. The system further includes a bias controller configured to detect a frequency of the grid and to responsively provide a bias signal to a speed controller of the engine. The bias controller may include a frequency bias controller configured to generate a frequency bias load sharing signal responsive to the detected frequency of the grid and a load sharing controller that receives the frequency bias load sharing signal and that generates the bias signal responsive to the load sharing signal. | 2021-02-04 |
| 20210036639 | STABILITY EVALUATION METHOD AND SYSTEM OF DIRECT-DRIVE WIND TURBINE GENERATOR - The application involves a stability evaluation method and system of direct-drive wind turbine generator, which belongs to the technical field of wind power generation. It solves the problems of poor stability of direct-drive wind turbine generator, low safety performance, failure to realize mutual cooperation between online stability evaluation and parameter adjustment in the existing technology. Firstly, the variation of direct-drive wind turbine generator terminal voltage, current, power and PLL angle of direct-drive wind turbine generator is measured, the terminal energy and the energy negative gradient of direct-drive wind turbine generator is calculated. Then, the system stability is assessed according to the value of energy negative gradient, the influence of the critical parameters on system stability is analyzed and the preliminary adjustment strategy is proposed. It realizes the mutual cooperation between stability level evaluation and parameter adjustment, and improves the working efficiency of the system. | 2021-02-04 |
| 20210036640 | MACHINE LEARNING CORRECTION PARAMETER ADJUSTMENT APPARATUS AND METHOD FOR USE WITH A MOTOR DRIVE CONTROL SYSTEM - A machine learning apparatus for learning a correction parameter used in correction of a command value that controls a motor in a motor drive system including a plurality of kinds of correction functions includes: a state observation unit that observes, as a state variable, each of a feature calculated on the basis of drive data and the kind of any of the correction functions of the motor drive system and the correction parameter; and a learning unit that learns the correction parameter for each of the correction functions according to a training data set created on the basis of the state variable. | 2021-02-04 |
| 20210036641 | MOTOR CONTROL SYSTEM - A motor control system configured to be mounted to a movable object that moves by using a drive motor, the motor control system comprising: a sensor configured to detect an output requested to drive the movable object; a battery configured to supply electric power to the drive motor; and circuitry configured to control the drive motor such that a requested amount of rotary power of the drive motor is output in a specified output range, the requested amount of the rotary power of the drive motor being set on the basis of a detection value of the output sensor. | 2021-02-04 |
| 20210036642 | MOTOR DRIVE OPERATION AT LIGHT LOAD CONDITIONS - A system includes a motor-driven component, a motor configured to operate the motor-driven component, and a motor drive circuit configured to power the motor. The motor drive circuit includes at least one complementary stage, where each stage includes a first transistor and a second transistor. During operation of the motor drive circuit, the first transistor is switched on when the second transistor is switched off. The system includes a controller communicatively coupled to the motor drive circuit. A load condition associated with the component is monitored. Based on the load condition, the controller determines whether the component is operating at a light load condition. If the component is operating at the light load condition, a switching frequency of each of stages is changed from a first switching frequency to a second switching frequency, which is less than the first switching frequency. | 2021-02-04 |
| 20210036643 | Torque And Current Control Methods For Switching Variable Electric Drive Vehicles - A current command module is configured to, based on a direct current (DC) bus voltage for an electric motor of the vehicle, generate a d-axis current command for the electric motor and a q-axis current command for the electric motor. A voltage command module configured to generate voltage commands based on the d-axis current command and the q-axis current command. A battery switching control module is configured to: determine a voltage operating state of a battery based on the voltage commands; compare a battery parameter to at least one of a predetermined voltage parameter and a predetermined current parameter during a dwell time when a plurality of switches of the battery are open; and generate a switch control signal to transition at least one switch of the plurality of switches to cause the battery to operate in the voltage operating state based on the comparison. | 2021-02-04 |
| 20210036644 | MOTOR VIBRATION METHOD, MOTOR VIBRATION DEVICE, COMPUTER DEVICE, AND COMPUTER-READABLE STORAGE MEDIUM - A motor vibration method and a motor vibration device are provided. The motor vibration method includes: receiving a vibration instruction, and acquiring target environmental data by a preset sensor, wherein the target environmental data includes one or more of environmental noise data, acceleration data and/or pressure data; determining a first vibration signal according to the target environmental data; generating a target vibration signal according to the first vibration signal and a preset second vibration signal, wherein a first frequency of the first vibration signal is greater than a second frequency of the second vibration signal; and controlling the motor to vibrate according to the target vibration signal. The method combines a traditional vibration reminding effect and a sound reminding effect provided by adding the medium- and high-frequency signal, thereby enhancing the reminding efficiency by means of motor vibration and increasing the successful rate of message delivery. | 2021-02-04 |
| 20210036645 | INVERTER CONTROL METHOD, AND INVERTER CONTROL APPARATUS - A control method of inverter for driving motor including a magnet, comprises detecting a rotation state of the motor by a rotation sensor, detecting current of the motor by a current sensor, calculating, based on a torque command value, a detection value of the rotation state detected by the rotation sensor, and detection current detected by the current sensor, a voltage command value for controlling a voltage of the motor by a controller for controlling the inverter, specifying a value of at least one of a local maximum value, a local minimum value, and an average value of the torque voltage command value included in the voltage command value as a torque determination target command value by the controller, comparing a demagnetizing determination threshold value with the torque determination target command value by the controller, and determining whether or not demagnetization of the magnet occurs in accordance with the compared result. | 2021-02-04 |
| 20210036646 | MOTOR SIMULATOR - Embodiments relate to a motor simulator for an inverter under test (IUT), the motor simulator comprising: a voltage follower inverter for at least partially cancelling an output voltage of the IUT; and an output current control unit for controlling an output current of the IUT on the basis of an estimated current of a simulation target motor. | 2021-02-04 |
| 20210036647 | HYSTERESIS BASED DC OFFSET CORRECTOR FOR CURRENT RECONSTRUCTION WHEN USING DISCONTINUOUS PWM - Disclosed embodiments are directed to a technique to remove DC offset from current measurement signals through shunt resistors in digital signal processing for current reconstruction when using discontinuous pulse width modulation (DPWM). Such measurements regarding current are pertinent to a feedback loop used for a system including a DC-link capacitor, inverter, and motor. A method of removing DC offset comprises: determining a three-phase output current signal of an inverter, wherein the inverter is coupled to a motor and a power supply; producing a voltage signal based on the three-phase output current signal and the resistances of one or more shunt resistors disposed in the inverter; applying an analog gain circuit to the voltage signal; processing the voltage signal with an analog-to-digital converter (ADC); applying a DC offset corrector to the voltage signal; and performing current reconstruction on the voltage signal to produce a continuous current signal. | 2021-02-04 |
| 20210036648 | ACTUATOR CONTROL DEVICE - An actuator control device having a plurality of controller units connected to actuators, supplies electrical power to the plurality of actuators via the plurality of controller units. A connection confirmation unit confirms a connection state of the plurality of controller units, and a determination unit determines, based on a confirmation result of the connection confirmation unit, whether or not the connection state is in an allowable connection state in which supply of electrical power to the plurality of controller units is allowable. | 2021-02-04 |
| 20210036649 | MOTOR CONTROL DEVICE, MOTOR CONTROL METHOD, AND STORAGE MEDIUM - A motor control device includes an electric current detection result acquisition unit configured to acquire a result of detecting an electric current for operating a motor, an electric current determination unit configured to determine whether or not the electric current acquired by the electric current detection result acquisition unit is greater than or equal to a predetermined threshold value, an operation time setting unit configured to set an operation time period corresponding to the electric current when the electric current determination unit determines that the electric current is greater than or equal to the predetermined threshold value, and an operation control unit configured to perform control for causing the motor to be continuously operated for the operation time period set by the operation time setting unit. | 2021-02-04 |
| 20210036650 | APPARATUS FOR OPERATING PHASE CUT SWITCH IN MOTOR DRIVEN POWER STEERING APPARATUS - Provided is an apparatus for operating a phase cut switch in a motor driven power steering apparatus. The apparatus for operating a phase cut switch in a motor driven power steering apparatus includes: a phase cut switch installed for an inverter for converting a voltage into 3-phase power and driving a driving motor and for each phase of input terminals of the driving motor; a gate driving unit configured to receive a driving signal from a control device and operate the phase cut switch; and a current circulation unit configured to circulate a counter electromotive force of the driving motor at an output terminal of the gate driving unit and an output terminal of the phase cut switch. | 2021-02-04 |
| 20210036651 | PARAMETER CONTROL SYSTEM AND MOTOR INCLUDING THE PARAMETER CONTROL SYSTEM - The present disclosure provides a parameter control system for a motor, comprising: a current acquisition circuit connected to the motor, so as to acquire a current output by the motor; an arithmetic processor configured to determine whether to adjust a parameter of the motor according to the current acquired, and generate a new parameter when it is determined to adjust the parameter of the motor; and an output circuit configured to output the new parameter generated by the arithmetic processor to a control device of the motor. The present disclosure also provides a motor including the parameter control system. | 2021-02-04 |
| 20210036652 | OPERATING AN ELECTRICAL MACHINE - A method for operating an electrical machine is used to calculate a value of a first torque which can be provided at a maximum by the electrical machine in a future interval, wherein, by limiting the torque which is provided in the interval to the value, overheating of at least one semiconductor, which is required for transmitting the electrical power, due to a power loss is prevented and/or the threat of overheating and the onset of derating is diagnosed and therefore prevented. | 2021-02-04 |
| 20210036653 | FLOATING PHOTOVOLTAIC PANEL INSTALLATION STRUCTURE AND BUOYANCY BODY FOR INSTALLATION OF FLOATING PHOTOVOLTAIC PANEL - Disclosed are a floating photovoltaic panel installation structure and a buoyancy body for the installation of the floating photovoltaic panel, which may have excellent strength and buoyancy performance even while having light-weight characteristics, and stably support a photovoltaic panel on the water even during the flowing of a water surface due to waves. In the floating photovoltaic panel installation structure according to an embodiment of the present disclosure, as the floating photovoltaic panel installation structure including at least one unit floating type structure for supporting a photovoltaic panel on the water, the unit floating type structure includes a plurality of buoyancy bodies arranged to be spaced apart from each other, a photovoltaic panel support structure supported on the plurality of buoyancy bodies, a triangular bracket coupled with a plurality of photovoltaic panel support structures, a ball joint hinge apparatus for connecting the plurality of photovoltaic panel support structures, and at least one photovoltaic panel supported by the photovoltaic panel support structure. At least one buoyancy body among the plurality of buoyancy bodies is made of a material in which Polyethylene and Waste Carbon Fiber Reinforced Plastics have been blended. For maintaining stable position and posture, the buoyancy body may include a cylindrical body having both side surfaces protruded convexly, and both side surfaces of the cylindrical body may be designed to have a shape in which a curvature radius of an upper area is smaller than a curvature radius of a lower area including a portion positioned below the water surface. In order to stably support the photovoltaic panel against the movement of waves, adjacent unit floating type structures may be connected in a joint structure by the ball joint hinge apparatus of a plastic material connected to the end portion of square tubes of the photovoltaic panel support structure. | 2021-02-04 |
| 20210036654 | LIGHT-CONCENTRATING SOLAR APPARATUS - Provided is a light-concentrating solar apparatus, comprising a light concentrating trough ( | 2021-02-04 |
| 20210036655 | HEAT EXCHANGE SYSTEM - A heat exchange unit for a solar photovoltaic panel comprising backing plate comprising U-channeling depressed in an upper surface thereof flexible tubing positioned within the U-channeling configured to carry fluid; and rear panel, the rear panel being positioned behind the backing plate, the rear panel having a reflective surface to reflect heat from the backing plate; wherein the heat exchange unit is configured to be positioned in thermal contact with a solar panel, with the flexible tubing between the backing plate and solar photovoltaic panel to facilitate heat exchange between the flexible tubing and the solar panel. | 2021-02-04 |
| 20210036656 | Arc fault detection method for photovoltaic system based on adaptive kernel function and instantaneous frequency estimation - An arc fault detection method for a photovoltaic system based on an adaptive kernel function and instantaneous frequency estimation includes steps of: sampling signal x | 2021-02-04 |
| 20210036657 | OSCILLATOR DEVICE - In an oscillator device that outputs a frequency signal based on an oscillation frequency of a crystal resonator and a frequency setting value, a frequency difference detector that obtains a difference value corresponding to a frequency difference between the output frequency of the oscillator device and an external clock signal and a temperature detector are disposed. An aging coefficient and a temperature characteristic coefficient are obtained based on a secular change of the difference value obtained in the frequency difference detector and a secular change of the detected temperature during a period where the external clock signal is obtained. Furthermore, a frequency correction value is calculated using the aging coefficient and the temperature characteristic coefficient during a holdover period, and the frequency correction value is added to the frequency setting value. | 2021-02-04 |
| 20210036658 | SEMICONDUCTOR PACKAGE STRUCTURE - A semiconductor package structure includes an organic substrate having a first surface, a first recess depressed from the first surface, a first chip over the first surface and covering the first recess, thereby defining a first cavity enclosed by a back surface of the first chip and the first recess, and a second chip over the first chip. The first cavity is an air cavity or a vacuum cavity. | 2021-02-04 |
| 20210036659 | DEVICE AND METHOD FOR VOLTAGE CONTROLLED OSCILLATOR COMPRISING DISTRIBUTED ACTIVE TRANSFORMER CORES - The present disclosure relates to a voltage controlled oscillator comprising a plurality of oscillator cores magnetically coupled in series. | 2021-02-04 |
| 20210036660 | RC OSCILLATING CIRCUIT - The disclosure discloses an RC oscillating circuit. A first end of a capacitor is grounded, a second end of the capacitor is connected to a charging path, a discharging path and a comparator, A first input end of a comparator is connected to first reference voltage. An output end of the comparator outputs a first output signal and is connected to a control end of the discharging path. The first reference voltage provides the flipped voltage of the comparator The first output signal forms an output clock signal. A first regulating circuit is configured to regulate the magnitude of the charging current and realize coarse frequency tuning. A second regulating circuit is configured to regulate the magnitude of the first reference voltage and realize fine frequency tuning. The disclosure has the advantages of low power consumption, fast start, high precision and wide tuning range. | 2021-02-04 |
| 20210036661 | SATURATION DETECTION OF POWER AMPLIFIERS - Apparatus and methods for saturation detection of power amplifiers are provided. In certain embodiments, a power amplifier system including a power amplifier and a saturation detector is provided. The power amplifier includes a gain transistor that amplifies an RF input signal to generate an RF output signal, and the saturation detector includes a detection transistor that is thermally coupled to the gain transistor. Additionally, the saturation detector monitors an input voltage to the gain transistor to generate a saturation detection signal indicating a saturation of the gain transistor. | 2021-02-04 |
| 20210036662 | Receiver Front End for Digital Isolators - A receiver front-end includes a first peaking gain stage configured to amplify a received differential pair of signals received on an input differential pair of nodes. The first peaking gain stage has a first frequency response including a first peak gain at or near a carrier frequency in a first pass band. The first peak gain occurs just prior to a first cutoff frequency. A second peaking gain stage is configured to amplify a differential pair of signals generated by the first peaking gain stage. The second peaking gain stage has a high input impedance and a second frequency response including a second peak gain at or near the carrier frequency in a second pass band. The second peak gain occurs just prior to a second cutoff frequency. The first peaking gain stage and the second peaking gain stage have a cascaded peak gain at or near the carrier frequency. | 2021-02-04 |
| 20210036663 | TEMPERATURE COMPENSATION CIRCUIT AND TEMPERATURE COMPENSATED AMPLIFIER CIRCUIT - Embodiments of a temperature compensation circuit and a temperature compensated amplifier circuit are disclosed. In an embodiment, a temperature compensation circuit includes a bias reference circuit having serially connected transistor devices and a driver transistor device connected to the bias reference circuit. At least one of the serially connected transistor devices includes a resistor connected between two terminals of the at least one of the serially connected transistor devices. The driver transistor device is configured to generate a drive current based on a resistance value of the resistor. | 2021-02-04 |
| 20210036664 | ENVELOPE TRACKING POWER AMPLIFIER MODULE AND ENVELOPE TRACKING METHOD FOR THE SAME - An envelope tracking power amplifier module and an envelope tracking method are provided. The envelope tracking power amplifier module includes a power amplifier and a linear amplifier coupled to the power amplifier and configured to receive and amplify an envelope signal and provide the amplified envelope signal to the power amplifier. The power amplifier is configured to receive and amplify a signal according to the amplified envelope signal. The envelope tracking method includes: providing a signal to the power amplifier; deriving an envelope phase of the signal, the envelope phase corresponding to an output power of the power amplifier; providing an envelope signal including the envelope phase to the envelope tracking module; the envelope tracking module providing the amplified envelope signal to the power amplifier; and the power amplifier amplifying the signal according to the amplified envelope signal and outputting the amplified signal at the output power. | 2021-02-04 |
| 20210036665 | Signal Processing Circuit Without Clock Mediation - A signal processing circuit that achieves functionality similar to that of a switched capacitor circuit without the necessity a clock. The circuit compensates for finite open loop gain and for offset voltages in the components, allowing the circuit to “calculate” the result of a problem represented by the circuit essentially immediately upon the presentation of a new input or set of inputs. After the circuit is initialized to remove gain, an input is applied to the circuit, and propagates through the network and affects the state of amplifier outputs; the propagation from the input through capacitors to the ultimate output(s) of the circuit is the analog calculation taking place. The calculation is not mediated by a clock, but rather the calculation corresponds to the circuit's one-time response to the application of the inputs. Using these techniques complex signal processing circuits and even analog neural networks may be constructed. | 2021-02-04 |
| 20210036666 | EXTENDED SPECTRUM TDMA UPSTREAM AND DOWNSTREAM CABLE AMPLIFIER - A method of bidirectional amplification of proprietary TDMA (Time-Division Multiple Access) data modulated signals over CATV infrastructure is described. A method of upstream/downstream switching based on carrier detection/measurement originated from the master and slave modems embodiment is described, along with upstream/downstream direction switching based on the encoded switching command detection, originating from the master modem. | 2021-02-04 |
| 20210036667 | SEMICONDUCTOR DEVICE - A semiconductor device includes: a first buffer at which a predetermined signal is input and that outputs a first output signal; a second buffer at which an inverted signal of the predetermined signal is input and that outputs a second output signal; and a short circuit detection circuit that, in accordance with a potential difference between the first output signal and the second output signal, outputs a short circuit evaluation signal evaluating whether or not there is a ground fault in at least one of a first terminal at an output side of the first buffer or a second terminal at an output side of the second buffer or evaluating whether or not there is a short circuit between the first terminal and the second terminal. | 2021-02-04 |
| 20210036668 | AMPLIFIER FOR DRIVING A CAPACITIVE LOAD - It is disclosed an amplifier for driving a capacitive load, comprising an input terminal adapted to receive an input voltage signal, an output terminal adapted to drive the capacitive load, a linear amplification stage, switching amplification stage, a capacitor, a first switch and a measurement and control circuit. The measurement and control circuit is configured to: measure the value of the current generated at the output from the linear amplification stage and generate a driving voltage signal of the switching amplification stage; generate the first switching signal to open the first switch and generate an enabling signal to enable the operation of at least part of the switching amplification stage; generate the first switching signal to close the first switch and generate the enabling signal to disable the operation of the switching amplification stage; generate the first switching signal to open the first switch. | 2021-02-04 |
| 20210036669 | APPARATUS AND METHODS FOR ADAPTIVE POWER AMPLIFIER BIASING - Apparatus and methods for adaptive power amplifier biasing are provided. In certain embodiments, a power amplifier system includes a power amplifier that provides amplification to a radio frequency (RF) signal, and a power amplifier bias control circuit that generates a bias signal of the power amplifier based on a bandwidth signal indicating a bandwidth of the RF signal. The power amplifier bias control circuit has a bandwidth that adapts to the bandwidth of the RF signal as indicated by the bandwidth signal. | 2021-02-04 |
| 20210036670 | TRANSIMPEDANCE AMPLIFIER CIRCUIT - A transimpedance amplifier circuit includes a single-input amplifier that converts a current signal into a voltage signal, a control current circuit that generates a control current based on the voltage signal and a reference voltage signal, and a bypass circuit. The bypass circuit includes a control circuit configured to receive the control current, a feedback current source configured to generate a direct current (DC) bypass current, and a variable resistance circuit configured to generate an alternating current (AC) bypass current, and the control circuit includes a first current mirror circuit that varies the DC bypass current via the feedback current source in accordance with the control current, and a second current mirror circuit varies the AC bypass current via the variable resistance circuit in accordance with the control current and an offset current. | 2021-02-04 |
| 20210036671 | TRANSIMPEDANCE AMPLIFIER CIRCUIT - In a transimpedance amplifier circuit, a control current circuit generates a control current based on a voltage signal and a reference voltage signal and includes an integrating circuit that generates a differential integral signal based on the voltage signal and the reference voltage signal, the transconductance amplifying circuit includes a first transconductance circuit that generates a first output current in accordance with a differential integral signal, a second transconductance circuit that generates a second output current in accordance with the differential integral signal, and a current source that supplies a third output current, and the control circuit has an input electrically connected to an output of the first transconductance circuit, an output of the second transconductance circuit, and an output of the current source. | 2021-02-04 |
| 20210036672 | AMPLIFIER - An amplifier includes: a first input transistor connected to a first input, a first output, and a power source or a ground, a second input transistor connected to a second input, a second output, and the power source or the ground; a first replica transistor connected to the first input, a detection node, and the power source or the ground; a second replica transistor connected to the second input, the detection node, and the power source or the ground; and a bias transistor connected to a bias voltage, the detection node, and the power source or the ground. | 2021-02-04 |
| 20210036673 | POWER COMBINER CIRCUIT - A power combiner circuit comprises a network topology for broadband RF and microwave systems that includes coupling elements, internodal matching sections, and an output matching section. The network topology serves as a combining mechanism for power from multiple power amplifiers. The network topology is designed so that characteristic impedances of transmissions lines serving as the coupling elements, internodal matching sections, and an output matching section produce a load impedance at an output port that is matched to the impedances seen by each power amplifier providing power to the power combiner circuit. Such a network topology is scalable to an unlimited number of power amplifiers, and enables a desired broadband frequency response for power amplification, while realizing a very low level of power output loss between input and output ports. | 2021-02-04 |
| 20210036674 | GAIN-CONTROL CIRCUIT AND METHOD FOR INSTRUMENTATION AMPLIFIERS - An instrumentation amplifier with an electronically adjustable gain is disclosed. The gain is adjusted by electronically controlling a resistance coupled to a feedback portion of the instrumentation amplifier. The resistance is adjusted by switches controlled by resistor-control signals references to a common mode voltage appearing at the input of the instrumentation amplifier. Accordingly, the instrumentation amplifier is capable of accommodating a high voltage range of common mode voltages while still providing controllable gain. | 2021-02-04 |
| 20210036675 | FILTER CIRCUIT DEVICE, AND POWER CONVERTER INCLUDING FILTER CIRCUIT DEVICE - A filter circuit device includes: first and second core members forming first and second through holes, respectively; a first conductor passing through the first and second through holes; a second conductor passing through the first and second through holes; a capacitor; a first terminal configured to electrically connect the first conductor with the capacitor; and a second terminal configured to electrically connect the second conductor with the capacitor. The first conductor from the first through hole to the second through hole and the second conductor from the first through hole to the second through hole have an opposing part between the first conductor and the second conductor. The first terminal presses an opposite surface of the first conductor, so as to be in contact with the first conductor. The second terminal presses an opposite surface of the second conductor, so as to be in contact with the second conductor. | 2021-02-04 |
| 20210036676 | FILTER DEVICE - A diplexer includes a common terminal, first and second terminals, and first and second filters which are electrically connected to the common terminal. The first filter passes a high frequency signal in a first frequency band. The second filter passes a high frequency signal in a second frequency band higher than the first frequency band. Each filter includes an inductor and a capacitor in a dielectric substrate. The first filter includes a first inductor with one end electrically connected to the common terminal, and a first capacitor electrically connected between another end of the first inductor and a ground. An inductance of the first inductor is smaller than an inductance of another inductor included in the first filter. A frequency of an attenuation pole defined by the first inductor and the first capacitor is higher than a frequency of the second frequency band. | 2021-02-04 |
| 20210036677 | LATERAL BULK ACOUSTIC WAVE FILTER - Acoustic wave filter devices is disclosed. The device includes a piezoelectric layer, an input electrode and an output electrode located on a top surface of the piezoelectric layer and physically separated from one another, and a counter electrode having a top surface connected to a bottom surface of the piezoelectric layer. The input and output electrodes each include a base and at least one extension extending from the base. The at least one extension of the input electrode extending alongside and in a generally opposite direction to and separated by a gap width from an adjacent extension of the at least one extensions of the output electrode. In some embodiments, the at least one extension of the input or output electrodes has a width that can changes from a first end of the at least one extension to a second end. | 2021-02-04 |
