22nd week of 2017 patent applcation highlights part 47 |
Patent application number | Title | Published |
20170155292 | Permanent Magnet Dynamo-Electric Machine - A permanent magnet electrical rotating machine is provided which is capable of contributing to protected permanent magnets and increased cooling performance during operation. The permanent magnet electrical rotating machine includes: permanent magnets; rotor cores that have the permanent magnets mounted thereto and are laminated in a rotating axis direction; spacers that are placed between adjacent rotor cores; and permanent magnet protection members that are installed between the permanent magnets and the rotor cores and also placed to maintain radial continuity in space partitioned by the spacers between the rotor cores. | 2017-06-01 |
20170155293 | POWER GENERATING APPARATUS - Provided is a power generating apparatus configured to generate power efficiently. High attractive force is generated between an inner peripheral surface ( | 2017-06-01 |
20170155294 | INTERIOR PERMANENT MAGNET MOTOR WITH FLUX STRENGTHENING - An interior permanent magnet motor with flux strengthening includes a stator and a rotor. The stator has a mounting hole centrally formed through the stator and multiple stator teeth circumferentially formed on an inner portion of the stator between a periphery of the stator and the mounting hole. The rotor is rotatably mounted inside the mounting hole and includes multiple permanent magnets circumferentially and axially mounted inside the rotor. Each permanent magnet has two radial sides. The rotor further includes multiple flux barrier grooves. Each flux barrier groove is axially formed through a portion of the rotor located beside one of the two radial sides of a corresponding permanent magnet. The presence of the flux barrier grooves serves to shield and guide the lines of magnetic flux of the permanent magnets so as to concentrate the lines of magnetic flux, strengthen flux linkage, and reduce flux leakage. | 2017-06-01 |
20170155295 | Coil and Stator Assembly of a Rotary Electric Machine - A coil for a rotary electric machine includes a plurality of electrically conductive wires defining a group of wires wrapped to define a plurality of turns. The coil further includes a pair of major sections and a compound outer surface along the pair of major sections. The compound outer surface has a first leg section and a second leg section with the first leg section and the second leg section at an angle to each other. A bonding material is positioned along portions of the pair of major sections to define the compound outer surface. | 2017-06-01 |
20170155296 | ARMATURE, ROTATING ELECTRIC MACHINE, CROSS-FLOW FAN, AND METHOD FOR MANUFACTURING PAIR OF TEETH OF ARMATURE - An armature coil includes a first portion, a second winding portion, a first winding end, a second winding end, and a crossover portion, and is continuously wound. The first winding portion is concentratedly wound in a counterclockwise winding direction with respect to a direction obtained in viewing a second end portion from a first end portion of a tooth, as it passes from the first winding end to the crossover portion. The second winding portion is concentratedly wound in a clockwise winding direction with respect to a direction obtained in viewing a second end portion from a first end portion of the tooth, as it passes from the crossover portion to the second winding end. | 2017-06-01 |
20170155297 | Axial Air Gap Rotating Electric Machine - To ensure ready assembly of a stator and reliably reduce the shaft voltage in an axial air gap rotating electric machine, an axial air gap rotating electric machine has a circular ring-shaped stator formed by a plurality of stator cores arranged about a rotational axis direction in a ring shape. Each stator core comprises a tubular bobbin and a coil, with the tubular bobbin having an iron core inserted into a bobbin inner tubular portion substantially matching the peripheral shape of the iron core. The axial air gap rotating electric machine has a first conductive member having a horizontal portion and a vertical portion contacting the end surface of the bobbin opening portion. The horizontal portion contacts parts of the iron core outer peripheral surface and the inner peripheral surface of the bobbin inner tubular portion, and the vertical portion is conductively connected to the inner circumferential housing surface. | 2017-06-01 |
20170155298 | POWER COLLECTION DEVICE FOR ELECTRIC MACHINE - A power collection device includes a carrier and a connection portion integrated with or attached to the carrier. The connection portion has a via for a wire to pass therethrough, a first side being in contact and connection with the carrier, a second side opposite to the first side, and a third side connected with the first and second sides. The via is in a shape of a circle, rectangle, square, rhombus, triangle with one side being close to the second side, or triangle with one angle being close to the second side. The via has a maximum length in a direction parallel to the first side being ¼ to ¾ times a length of the first side, and a maximum length in a direction perpendicular to the first side being ¼ to ¾ times a length from the first side to the second side. | 2017-06-01 |
20170155299 | MOTOR WITH BUS-BAR ASSEMBLY - Disclose herein is a motor. The motor includes a stator assembly that has a stator core, an upper insulator covering and insulating an upper portion of the stator core, and a lower insulator covering and insulating a lower portion of the stator core, and a bus-bar assembly that has a bus-bar having a plurality of connecting terminals formed on a circular bus and a contact portion electrically connected to a coil, and a bus-bar housing accommodating the bus-bar therein. The bus-bar housing is coupled to a bus-bar seat defined in a central portion of the upper insulator. | 2017-06-01 |
20170155300 | ELECTRIC MOTOR BRUSH APPARATUS AND METHOD - A motor assembly includes: a motor housing including: at least one brush receptacle having top and bottom ends; a locking element extending from the top end toward the bottom end; and a housing spring member; at least one brush holder apparatus including: a brush holder housing sized to be received within the brush receptacle, including: an upper surface and a lower surface; a receiving aperture; and an open end; a brush spring enclosed by the brush holder housing; and a brush located inside the brush holder housing; wherein the brush holder apparatus is inserted inside the brush receptacle; and wherein the housing spring member urges the brush holder apparatus toward the top end such that the locking element is received inside the receiving aperture. | 2017-06-01 |
20170155301 | MOLDED HOUSING WITH A REINFORCEMENT ELEMENT - A molded housing for a machine includes a shaft, a first region, a second region, and a third region, a first passage for the shaft and a second passage. The first passage includes a first molded edge and the second passage includes a second molded edge. The second passage includes a reinforcement element running from a first connection point connected to the second molded edge to an opposite second connection point connected to the second molded edge. The second molded edge includes a first securing device at a third connection point and a second securing device at a fourth connection point. The second passage has an opening in a wall of the molded housing and a projection of an imaginary line connecting the third connection point to the fourth connection point into the opening intersects a projection of the reinforcement element into the opening at an acute angle. | 2017-06-01 |
20170155302 | MOTOR TERMINAL, MOTOR TERMINAL ASSEMBLY HAVING THE SAME, AND METHOD OF ASSEMBLING MOTOR USING THE SAME - Disclosed herein is a motor terminal assembly comprising a terminal case comprising a terminal accommodation portion accommodate a terminal of another component, and a front end portion having a larger horizontal cross-section than a terminal hole so as to be caught by the terminal hole outside a bracket, and a body portion formed beneath the front end portion and having a smaller horizontal cross-section than the terminal hole so as to move in the terminal hole and A part of electrical connection means to be connected to a terminal a busbar terminal, and to be located at inside the terminal case. Consequently, it may be possible to prevent damage to the terminal and more effectively prevent the terminal from being inclined or biased in an initial state in which the terminal is inserted into a terminal hole. | 2017-06-01 |
20170155303 | MOTOR FOR REDUCING A REPULSIVE FORCE - A rotary motor capable of reducing repulsive force is disclosed. The rotary motor comprises a housing, a stator located in the housing and configured to have a shape of a cylinder on which a central part is penetrated, and a rotator configured to rotate in the stator. Here, the stator rotates clockwise or counterclockwise. | 2017-06-01 |
20170155304 | LUBRICANT FLOW CONTROL IN A LINEAR MOTOR - A linear motor includes a rotor rotatable relative to a surrounding rotor sleeve and about a central axis. At least one opening extends between an inner surface and an outer surface of the rotor. An externally threaded leadscrew extends through the rotor and along the central axis. An internally threaded nut is located within and mated to the rotor so as to rotate with the rotor about the central axis and ride along the leadscrew. A first cavity is located between the nut and a first bushing set against the inner surface of the rotor and a second cavity is located between nut and a second bushing set against the inner surface of the rotor. The at least one opening in the rotor forms a passage between the first and second cavities and is defined between the sleeve and nut so as to communicate excess lubricant. | 2017-06-01 |
20170155305 | ELECTRIC MOTOR - An electric motor includes a shaft extending along an axial direction and having conductivity, a plurality of bearings, a bearing housing, a stator arranged so as not to be located between the shaft and the bearing housing, and a rotor arranged so as not to be located between the shaft and the bearing housing. The bearings are axially spaced, with each including a conductive inner ring fixed to and in contact with the shaft, and a conductive outer ring rotatable relative to the inner ring. The bearing housing has a tubular shape surrounding the shaft and contacting at least two outer rings of the bearings. The rotor faces the stator and is coupled to the stator with the shaft, the bearings, and the bearing housing between the stator and the rotor so as to rotate relative to the stator. | 2017-06-01 |
20170155306 | BRUSHLESS D.C. MOTOR WITH IMPROVED ROTOR MAGNET POSITION SENSING - A brushless D.C. motor has a rotor with a plurality of magnets secured to a mounting surface. Each magnet has an RF transmitter secured to a magnet surface, with each RF transmitter having stored therein a unique identification character serving to identify the magnet. A transmitter power generator having several coils mounted on the rotor and a power conditioning unit supplies power to the transmitters, which continuously broadcast their identification character. A stator has a plurality of pole teeth separated by slots, each pole tooth having a power coil wound thereabout. A plurality of RF receiver antennae are mounted adjacent the pole teeth each coupled to a different RF receiver. The position and magnet identification information received by the RF receiver is processed and coupled to a microprocessor, which extracts the information and sends it to a motor controller and driver unit, which supplies operating power to the individual power coils. | 2017-06-01 |
20170155307 | DETERMINATION OF ROTOR FATIGUE IN AN ELECTRIC MACHINE ASSEMBLY - An electric machine assembly includes an electric machine including a rotor. A controller operatively connected to the electric machine and configured to receive a torque command. The rotor is configured to rotate at a rotor speed (ω) based at least partially on the torque command. The controller has a processor and tangible, non-transitory memory on which is recorded instructions for executing a method for determining a cumulative rotor fatigue (F | 2017-06-01 |
20170155308 | DRIVE DEVICE - A drive device for motor-actuated displacement of a movable component part of a motor vehicle includes: a housing tube in which is arranged a rotary electric motor having a rotor with a radially magnetized permanent magnet; a supporting ring arranged in the housing tube so as to be axially supported at the electric motor; and a sensor arrangement arranged at a determined distance from the electric motor, the sensor arrangement being configured to contactlessly detect rotational movement of the rotor of the electric motor. The sensor arrangement has at least one Hall sensor arranged on a carrier board, the carrier board being supported by the supporting ring so as to be axially supported at the electric motor. The supporting ring is connected to the electric motor by positive engagement and/or frictional engagement. | 2017-06-01 |
20170155309 | METHOD OF FABRICATING ELECTRIC MACHINE LAMINATIONS USING ADDITIVE MANUFACTURING - A method of making a component of a radial or axial flux electrical machine is provided. An additive manufacturing process is used to manufacture a plurality of laminas, including applying beams of energy to a successive plurality of ferromagnetic material particles and fusing them together to form a ferromagnetic helix or spiral, disposing an insulating material on said ferromagnetic helix or spiral, compressing the ferromagnetic helix or spiral to form a compressed ferromagnetic helix or spiral, and fixing the compressed ferromagnetic helix or spiral. A method of making a component of a transverse flux electrical machine is provided, including using an additive manufacturing process. | 2017-06-01 |
20170155310 | SHORT-CIRCUITING RING AND ROTOR FOR AN ELECTRIC MACHINE - The invention relates to a short-circuiting ring for an electric machine, comprising a single-piece serpentine ring member ( | 2017-06-01 |
20170155311 | VOICE COIL MOTOR - A voice coil motor includes a holder, a metal yoke, a carrier, a plurality of magnets, a coil and at least two spring plates. The magnets are disposed in the metal yoke. The coil is wound around the carrier and adjacent to the magnets. The spring plates are coupled to the carrier. The holder includes a first opening, a cylindrical sidewall and at least two radial protrusions. The cylindrical sidewall is disposed around the first opening. The radial protrusions protrude from the cylindrical sidewall. The metal yoke is coupled to the holder and includes a second opening and a plurality of inner walls. The carrier is movably disposed in the metal yoke and includes at least two radial enlarged portions and a plurality of notches. Each of the radial enlarged portions is disposed correspondingly to each of the radial protrusions. | 2017-06-01 |
20170155312 | VOICE COIL MOTOR - A voice coil motor includes a holder, a metal yoke, a carrier, a plurality of magnets, a coil and at least two spring plates. The holder includes a first opening and a cylindrical sidewall disposed around the first opening. The metal yoke coupled to the holder includes a second opening and a front end portion. The cylindrical sidewall extends from the first opening towards the second opening. The carrier movably disposed in the metal yoke includes a covering portion disposed on one side of the carrier towards the holder and correspondingly to the cylindrical sidewall, wherein the covering portion surrounds the cylindrical sidewall and farther from the first opening than the cylindrical sidewall. The magnets are disposed in the metal yoke. The coil is wound around the carrier and adjacent to the magnets. Each of the spring plates is flat sheet and coupled to the carrier. | 2017-06-01 |
20170155313 | Control Method and Device for I-Type Three-Level Circuit - Control method and device for I-type three-level circuit are disclosed, which can realize zero-voltage turn on of switching tube of high-frequency bridge arm, reduce circuit loss and improve circuit efficiency. The control method includes: detecting a current of an inductor connected with each of high-frequency arm bridges in operation state in the circuit; in a positive half cycle of AC connection terminal voltage of the circuit, when a freewheeling switching tube of the high-frequency arm bridge connected with the inductor is in ON state and a main switching tube is in OFF state, controlling the freewheeling switching tube to keep in ON state and the main switching tube to keep in OFF state if the current does not reach a preset negative current, and controlling the freewheeling switching tube to be turned off and the main switching tube to be turned on if the current reaches the preset negative current. | 2017-06-01 |
20170155314 | ACTIVE FILTERING SYSTEM - An active filtering system designed to be connected in parallel with an electric power supply network providing a main power supply current including a disturbing current, the system including at least one capacitor, a controlled current generator including an electric power supply intended to generate a positive determined voltage or a negative determined voltage and connected in series with the capacitor, a device for controlling the controlled current generator, designed to generate a compensation current to be applied to the main current in order to compensate the disturbing current while keeping a decoupling current measured at the connection point between the current generator and the capacitor at a value suitable for not saturating the current generator. | 2017-06-01 |
20170155315 | Power Regulator - A power regulator has an input terminal arranged to receive an input voltage, an output terminal arranged to output an output voltage, a transistor connected to the input terminal and to the output terminal, a feedback terminal arranged to receive a feedback voltage having a predetermined relationship with the output voltage, a control circuit configured to control the transistor based on the feedback voltage at the feedback terminal and a reference voltage so as to keep the output voltage constant (equal to a first voltage), and an open detection circuit configured to detect an open state of the feedback terminal and, on detecting the open state, to vary the reference voltage and thereby keep the transistor in an OFF state (or a voltage holding circuit configured to hold the output voltage constant at a second voltage lower than the first voltage when the feedback terminal is in an open state). | 2017-06-01 |
20170155316 | System and Method for a Power Conversion System - In accordance with an embodiment, a method of operating a power system includes operating a power converter at a first output power, monitoring a first input voltage at an input port of the power converter. The method further includes upon detecting that the first input voltage drops below a first pre-determined voltage threshold, reducing the first output power of the power converter to a second output power lower than the first output power, and suspending operation of the power converter after the reducing the first output power of the power converter. | 2017-06-01 |
20170155317 | SWITCHING-CAPACITOR REGULATOR WITH CHARGE INJECTION MODE FOR HIGH LOADING CURRENT - A switching-capacitor regulator with a charge injection mode for a high loading current is used to generate an output voltage at an output node, where the switching-capacitor regulator includes a storage capacitor, a switch module, a current source and a control unit. The switch module is coupled between the storage capacitor, a first supply voltage, a second supply voltage and the output node. The current source is coupled to the output node, and is used for selectively providing a current to the output node. The control unit is coupled to the switch module and the output node, and is used for controlling the switch module to selectively charge or discharge the storage capacitor, and for controlling the current source to selectively provide the current to the output node, to adjust a voltage level of the output voltage | 2017-06-01 |
20170155318 | DC/DC CONVERTER AND METHOD OF DRIVING DC/DC CONVERTER - A DC/DC converter ( | 2017-06-01 |
20170155319 | CONTROL CIRCUIT AND CONTROL METHOD FOR POWER CONVERTER - The disclosure relates to a control circuit and a control method for a power converter. The power converter comprises a power switch and an inductor being coupled to the power switch. The control circuit controls operation of the power switch to charge and discharge the inductor for generating an inductor current and providing an output current. The control circuit controls the power switch to be turned on when or after an inductor current detection signal is zero, and controls the power switch to be turned off when the inductor current detection signal reaches a peak reference signal or when the power switch has been turned on for a maximum on time. The control circuit also adjusts the maximum on time in accordance with the inductor current detection signal, so that the power converter provides a constant output current to a load. The control circuit operates at a peak-value current mode and maintains the current of the power converter nearly stable without obtaining a compensation signal. The circuit structure is simplified and the number of peripheral components is reduced. | 2017-06-01 |
20170155320 | VOLTAGE REGULATOR - A voltage regulator includes: a regulator core configured to provide a first gate signal; a buffer circuit unit configured to buffer the first gate signal to provide a second gate signal; a first switch connected between the buffer circuit unit and a common node; a second switch connected between the regulator core and the common node; and an output transferring device configured to provide a regulated voltage regulated from an operating voltage depending on at least one of the first gate signal and the second gate signal through the common node, wherein the first switch is configured to be maintained in a turned-on state in a first operation mode by a first control signal, the second switch is configured to be maintained in a turned-on state in a second operation mode by a second control signal, and the second operation mode is different than the first operation mode. | 2017-06-01 |
20170155321 | POWER-CONVERTING DEVICE AND POWER CONDITIONER USING THE SAME - A first conversion circuit is electrically connected between a reference potential point and a first input point on a high potential side of a direct current power supply. A second conversion circuit is electrically connected between the reference potential point and a second input point on a low potential side of the direct current power supply. A voltage-regulating circuit is configured to adjust a magnitude of an applied voltage to the first conversion circuit and the second conversion circuit. The voltage-regulating circuit is configured to increase the magnitude of the applied voltage over time during a start time period from a start of supplying power from the direct current power supply until a first capacitor and a second capacitor are charged to a specified voltage. | 2017-06-01 |
20170155322 | CONTROL METHOD AND CONTROL CIRCUIT FOR SWITCH IN SWITCHING POWER SUPPLY - A control circuit for driving a power switch in a switching power supply can include: a start-up transistor having a drain coupled to a drain of the power switch, and a source coupled to a drain voltage detecting circuit; a gate voltage detecting circuit configured to detect a gate voltage of the power switch, to compare the gate voltage against a first threshold voltage, and to change an on drive current and an off drive current in response thereto; and the drain voltage detecting circuit being configured to detect a drain voltage of the power switch, to compare the drain voltage against a second threshold voltage, and to change the on drive current and the off drive current in response thereto. | 2017-06-01 |
20170155323 | SYNCHRONOUS RECTIFICATION DC/DC CONVERTER - A synchronous rectification DC/DC converter includes a first transistor and a second transistor including respective main electrodes connected to a common connection point, the first transistor and the second transistor being NMOS transistors, a control circuit configured to control switching of the first transistor and the second transistor in a complementary manner, a bootstrap circuit that includes a first capacitor charged with a current supplied from a high voltage potential terminal and is configured to raise a voltage potential of a control electrode of the first transistor to turn on the first transistor, and a charging stop circuit configured to stop the first capacitor from being charged from the high voltage potential terminal in a time period in which the first transistor and the second transistor are turned off simultaneously. | 2017-06-01 |
20170155324 | Buck-Boost Converter - A buck-boost converter and a method are presented. The buck-boost converter comprises an inductor, a buck converter, and a boost converter. The buck converter controls switches according to a buck duty cycle, whereas the boost converter controls switches according to a boost duty cycle. The converter contains a voltage feedback loop for regulating an output voltage of the converter. A buck comparator generates the buck duty cycle signal by comparing the error voltage with a ramp voltage. A boost comparator generates the boost duty cycle signal by comparing a boost error voltage with the ramp voltage, wherein the boost error voltage is indicative of a sum of the error voltage and an offset voltage and the boost ramp voltage is indicative of a sum of the ramp voltage and the offset voltage. There is a duty cycle feedback loop for adjusting the buck and boost duty cycles. | 2017-06-01 |
20170155325 | RESONANT POWER SUPPLY DEVICE - A resonant power supply includes a full bridge circuit having a first switching leg and a second switching leg and a control unit that controls operations of a first upper arm switching device and a first lower arm switching device constituting the first switching leg, and a second upper arm switching device and a second lower arm switching device constituting the second switching leg and feeds power to a load from a DC power supply via the full bridge circuit. The control unit controls the full bridge circuit so as to have a phase difference between a turn-off of the first upper arm switching device and the turn-off of the second lower arm switching device, and increases the phase difference in accordance with increase of a switching frequency of the full bridge circuit. | 2017-06-01 |
20170155326 | Selected-Parameter Adaptive Switching for Power Converters - A selected-parameter adaptively switched power conversion system, for example, includes a counter for determining a period of an output oscillation a power supply switch, where the output oscillation starts when an output current generated by stored power of the power supply coil decays substantially to zero. An event generator for generating a switching delay event in response to the determined output oscillation period and generates a switching delay event in response to a determination of a phase of the output oscillation. | 2017-06-01 |
20170155327 | PUSH-PULL TYPE DC/DC CONVERTER - In a push-pull type DC/DC converter capable of operating primary side switching elements alternately, a switching operation section turns on a primary side switching element having a high priority after a mode (d) as a normal state is transferred to a mode (d) as an inverse state during a circulation period when a load current is circulated into the secondary side rectifier elements when all of the primary side switching elements are turned off. To turn on the primary side switching element having a high priority after occurrence of the state transition to the inverse state can reduce a voltage immediately after supplying of electric power to the primary side switching elements with using exciting current and without adding any additional component. | 2017-06-01 |
20170155328 | POWER CONVERTOR - A power convertor includes a transformer, a filtering unit, an isolating unit, a starting unit, a rectifier, an accelerating capacitor, a controlling module and an auxiliary capacitor. The filtering unit is electrically connected to the transformer and the isolating unit. The accelerating capacitor is electrically connected to the rectifier and the isolating unit. The starting unit is electrically connected to the rectifier, the isolating unit, the accelerating capacitor, the controlling module and the auxiliary capacitor. The power convertor is shut down when the controlling module enters a latch mode. The isolating unit is configured to prevent an electric power stored in the filtering unit from entering the starting unit when the controlling module leaves the latch mode. The accelerating capacitor obtains a voltage level and rapidly charges to the auxiliary capacitor to make the power convertor restart when the controlling module leaves the latch mode and resets. | 2017-06-01 |
20170155329 | METHOD AND SYSTEM OF CONTROLLING CONVERTER - A method and system of controlling a converter is provided. The method includes sensing, by a controller, an on and off state of a secondary side switch of the converter and deriving, by the controller, a current command of the converter. The current command is then compared with preset current reference values each provided based on the on and off state of the secondary side switch. As the result of the comparison of the current command with the current reference value, the on and off state of the secondary side switch is either changed or maintained. | 2017-06-01 |
20170155330 | CONTROL METHOD AND CONTROL CIRCUIT FOR SWITCHING POWER SUPPLY - In one embodiment, a method of controlling a switching power supply, can include: (i) generating a driving current signal that follows a waveform of a sense voltage signal, where the sense voltage signal is related to a current through a collector of a transistor that is configured as a power switch of the switching power supply, where the collector is coupled to an inductive element of the switching power supply; (ii) providing the driving current signal to a base of the transistor, where the transistor is in a saturated conduction state when a pulse-width modulation (PWM) signal is active; and (iii) releasing charge accumulated on the base when the PWM signal is inactive to turn off the transistor. | 2017-06-01 |
20170155331 | SWITCHING MODE POWER SUPPLIES WITH FAST LOAD-TRANSIENT RESPONSE - A power supply detects a falling rate of an output voltage for fast load-transient response. The power supply with a primary side and a secondary side isolated from each other comprises a primary-side control circuit and a secondary-side control circuit. The primary-side control circuit controls a power switch to convert an input power source on the primary side into an output power source on the secondary side. The output power source has the output voltage. The secondary-side control circuit detects the falling rate and sending information to the primary-side control circuit when the falling rate exceeds a predetermined rate. In response to the information, the primary-side control circuit starts anew switching cycle of the power switch. | 2017-06-01 |
20170155332 | MODIFIABLE DC-DC POWER CONVERTERS FOR PROVIDING DIFFERENT OUTPUT VOLTAGES - A DC-DC power converter kit includes a body, a plurality of input connectors, and a plurality of output connectors. The body includes a plurality of inputs configured to couple to one another to form a power converter input, a plurality of outputs configured to couple to one another to form a power converter output, and a plurality of transformers. The power converter output is configured to provide a first output voltage when using a first set of the input connectors and a first output connector, and the power converter output is configured to provide a second output voltage different than the first output voltage when using a second set of the input connectors and a second output connector. Additional example power converter kits, power converters, and methods for adjusting an output voltage are also disclosed. | 2017-06-01 |
20170155333 | SWITCHING POWER SUPPLY APPARATUS - In a standby signal generation circuit, a first comparator compares a FB voltage fed back from a secondary side with a first reference voltage, and a second comparator compares a signal indicative of the magnitude of a load with a second reference voltage. When the FB voltage falls under the first reference voltage, the first comparator sets an RS flip-flop via a first delay circuit. At this time, if the signal is lower than the second reference voltage and a reset signal is not inputted to the RS flip-flop, it is determined, based on a standby control signal from the load, that an output voltage of a switching power supply apparatus has fallen. Accordingly, a standby signal indicative of standby mode is outputted via a second delay circuit. If the signal transiently exceeds the second reference voltage, the standby signal is set to normal mode. | 2017-06-01 |
20170155334 | MULTIPHASE INTERLEAVED FORWARD POWER CONVERTERS INCLUDING CLAMPING CIRCUITS - A multiphase interleaved forward power converter includes two or more subconverters and two or more subconverters clamping circuits. Each subconverter includes an input, an output, and a transformer coupled between the input and the output. The subconverters are phase shifted relative to each other such that a conduction period of one subconverter is at least partially complementary to an idle period of another subconverter. The clamping circuits each include a switching device coupled to at least one winding of the transformer of each subconverter. The clamping circuits each are configured to clamp a voltage across the at least one winding to substantially prevent a resonance voltage from propagating in the subconverters during their idle period. Additional example subconverters, clamping circuits, and methods for substantially preventing a resonance voltage from propagating in multiphase interleaved forward power converters are also disclosed. | 2017-06-01 |
20170155335 | SECONDARY SIDE CONTROLLED CONTROL CIRCUIT FOR POWER CONVERTER WITH SYNCHRONOUS RECTIFIER - A secondary side controlled control circuit for power converter with synchronous rectifier is provided. The secondary side controlled control circuit comprises a primary side controller and a secondary side controller. The primary side controller generates a primary side switching signal for switching a primary side switch of the power converter. The secondary side controller generates a secondary side switching signal for switching a switch of the synchronous rectifier of the power converter. The secondary side controller generates a primary side control signal to control the primary side controller for controlling the primary side switching signal. | 2017-06-01 |
20170155336 | INVERTER DEVICE - An inverter device includes an inverter device body portion and a protective cover that covers the inverter device body portion, and the protective cover integrally includes a front surface portion that covers the front surface of the inverter device body portion, a top surface portion that covers the top surface of the inverter device body portion, a first side surface portion that covers a first side surface of the inverter device body portion, and a second side surface portion that covers a second side surface of the inverter device body portion. | 2017-06-01 |
20170155337 | ELECTRIC POWER CONVERTER - An electric power converter includes a positive and a negative electrode terminals being disposed parallel and adjacent to each other, a positive electrode side switching device connected to the positive electrode terminal, a negative electrode side switching device connected to the negative electrode terminal, an output terminal connected to a connection point between the positive and the negative electrode side switching devices, and a counter conductor facing at least a portion of the positive electrode terminal and at least a portion of the negative electrode terminal in a height direction, the height direction being a direction perpendicular to both an aligned direction and a protruding direction of the positive and the negative electrode terminals. The counter conductor is disposed along a current path of an alternating current flowing through the positive electrode terminal, the positive electrode side switching device, the negative electrode side switching device, and the negative electrode terminal. | 2017-06-01 |
20170155338 | Method and Device for Controlling Vienna-Like Three-Level Circuit - A method and a device for controlling a Vienna-like three-level circuit are provided. The method includes: detecting an inductor current of an inductor connected to each operating high-frequency bridge arm in the Vienna-like three-level circuit during a positive half cycle of an AC input voltage; and in a case that a freewheeling switch transistor on the high-frequency bridge arm to which the inductor is connected is in an on state, and a main switch transistor is in an off state, controlling the freewheeling switch transistor to maintain in the on state and the main switch transistor to maintain in the off state if the detected inductor current does not reach a preset negative current, and controlling the freewheeling switch transistor to be turned off and the main switch transistor to be turned on if the detected inductor current reaches the preset negative current. | 2017-06-01 |
20170155339 | Low Forward Voltage Rectifier - A rectifier includes a larger Field Effect Transistor (FET | 2017-06-01 |
20170155340 | POWER CONDITIONING CIRCUIT WITH HYBRID FULL WAVE RECTIFICTION USING MATCHED VIRTUAL JUNCTION RECTIFIER - An input power conditioning circuit (PCC) for a switched-mode power converter includes a hybrid full wave rectifier. Hybrid rectification is provided by a main rectifier and a matched virtual junction (VJ) rectifier, both with four-transistor gate fully cross-coupled. The VJ rectifier includes a voltage divider (such as a resistive voltage divider) to generate a virtual junction reference voltage VJ_ref (which can be less than transistor Vth). A power conversion controller (such as a boost controller) includes circuitry (such as an error amplifier) to regulate the input voltage VIN (main rectifier) to be substantially equal to VJ_ref from the VJ rectifier. Hybrid rectification, with VIN regulation, can be used to eliminate reverse (flow back) current, improving power conversion efficiency. | 2017-06-01 |
20170155341 | SEMICONDUCTOR DEVICE - A semiconductor device includes: power elements that configures an inverter; a conductive plate that electrically connects the power elements; and a current detection portion. The power elements include a first power element and a second power element. The conductive plate includes: a first carrying portion; a second carrying portion; a third carrying portion; a fourth carrying portion; a first connection portion that electrically connects the second carrying portion and the third carrying portion to connect the first power element and the second power element in series; and an output terminal electrically connected with the second carrying portion or the third carrying portion. The first carrying portion is connected with a first power source and the fourth carrying portion is connected with a second power source. The current detection portion is fixed to the output terminal and the magnetic field permeates the current detection portion. | 2017-06-01 |
20170155342 | Multiphase Power Converter Circuit and Method - A multiphase power converter circuit includes at least two single phase power converter circuits. Each single phase power converter circuit includes at least one converter series circuit with a number of converter units. The converter series circuit is configured to output a series circuit output current. A synchronization circuit is configured to generate at least one synchronization signal. At least one of the converter units is configured to generate an output current such that at least one of a frequency and a phase of the output current is dependent on the synchronization signal. | 2017-06-01 |
20170155343 | ULTRASONIC MOTOR, DRIVE CONTROL SYSTEM, OPTICAL APPARATUS, AND VIBRATOR - Provided is an ultrasonic motor including an annular vibrator and an annular moving member that is brought into pressure-contact with the vibrator. The vibrator includes an annular vibrating plate and an annular piezoelectric element. The piezoelectric element includes an annular lead-free piezoelectric ceramic piece, a common electrode arranged on one surface of the piezoelectric ceramic piece, and a plurality of electrodes arranged on the other surface of the piezoelectric ceramic piece. The plurality of electrodes include two drive phase electrodes, one or more non-drive phase electrodes, and one or more detection phase electrodes. A second surface of the vibrating plate includes a plurality of groove regions extending radially, and the depths of the groove regions change in a circumferential direction along a curve obtained by superimposing one or more sine waves on one another. The ultrasonic motor exhibits a sufficient drive speed while suppressing generation of an unnecessary vibration wave. | 2017-06-01 |
20170155344 | ROBOT SYSTEM - A robot system includes: a robot; a three-phase inverter having a high side switch and a low side switch connected in series; a power line electrically connecting a connection point between the high side switch and the low side switch to a stator winding of a motor; a short circuit path that electrically connects at least two lines of the power line; a brake switch arranged in the short circuit path to change the short circuit path to an open state or a closed state; a break detector that detects a disconnection of the power line; and an operation part that operates the brake switch from the open state to the closed state, when the break detector detects the disconnection. | 2017-06-01 |
20170155345 | VARIABLE ELECTRIC MOTOR SYSTEM AND ELECTRICALLY POWERED DEVICE THEREOF - This variable electric motor system comprises an electrically powered device ( | 2017-06-01 |
20170155346 | MOTOR DRIVE CONTROL DEVICE - A motor drive control device, which drives a motor including a plurality of phase coils and a rotor, includes: a motor driver, which outputs a drive signal to the phase coils on a drive control signal; one position sensor, which is provided in a position where a timing of at least one of a rising edge and a falling edge of a rotor position signal is near a zero cross timing of a phase signal of any phase coil; and a controller that: generates the drive control signal based on the phase signal in a case where a rotational speed of the motor is less than a predetermined rotational speed; and generates the drive control signal based on the rotor position signal output from the one position sensor in a case where the rotational speed is equal to or more than the predetermined rotational speed. | 2017-06-01 |
20170155347 | DEVICE AND CONTROL METHOD FOR DRIVING SENSORLESS BLDC MOTOR - A device and control method for driving a sensorless brushless DC (BLDC) motor, particularly related to a technology configured to increase the accuracy of detection of Zero Cross Point through a non-commutation period in a pulse width modulation (PWM) control. The device for driving a sensorless BLDC motor to switch a current applied to a stator winding based on a position of a rotor includes a three phase inverter configured to convert a DC input voltage into a three phase AC voltage and supply the three phase AC voltage to the BLDC motor; a terminal voltage detector configured to detect a three phase terminal voltage from an output terminal of the three phase inverter; and a controller configured to perform a PWM control of the terminal voltage based on a three phase back electromotive force (EMF) included in the detected terminal voltage. The PWM control includes a non-commutation control in which the switching of the current does not occur. | 2017-06-01 |
20170155348 | MOTOR DRIVE CONTROL DEVICE - A motor drive control device drives a motor including a plurality of phase coils and a rotor rotatably supported with respect to the plurality of phase coils, and the motor drive control device includes a controller, which generates a drive control signal; a motor driver, which outputs a drive signal to each of the phase coils of the motor, based on the drive control signal; and a back-electromotive-voltage detector, which is connected to each of the phase coils and includes resistive voltage dividing circuits having respectively different voltage-dividing ratios, wherein the back-electromotive-voltage detector detects a rotational position of a rotor for sensorless driving by using the resistive voltage dividing circuits. | 2017-06-01 |
20170155349 | APPARATUS AND METHOD FOR CONTROLLING PERMANENT MAGNET MOTOR - An apparatus and a method for controlling a permanent magnet motor are provided. An apparatus for controlling a permanent magnet motor, according to an embodiment of the present invention, comprises: a current control unit for generating a control current so as to drive a motor according to an initial set current or a current corresponding to an estimated magnetic flux; a motor driving unit for driving the motor according to the control current of the current control unit; a measurement unit for measuring a driving voltage and current of the motor; and a magnetic flux estimation unit preliminarily driving the motor with the initial set current or the current corresponding to the estimated magnetic flux, so as to estimate the magnetic flux of the motor on the basis of the current measured when the motor is preliminarily driven and a voltage model of the motor according to the measured voltage, and adaptively controlling the magnetization current or demagnetization current of the motor such that the estimated magnetic flux is within an error range. | 2017-06-01 |
20170155350 | POWER SUPPLY DEVICE - A power supply device includes: a first electric power line; a second electric power line; a first boost converter; a second boost converter; a first current sensor; a second current sensor; a third current sensor; and an electronic control unit. The electronic control unit is configured to determine that a third switching element of the second boost converter has an on-failure when a battery current is a value at a time of being discharged from a battery, a first reactor current is a value at a time of passing from a side of a second positive electrode line to a side of a first center point, and a second reactor current is a value at a time of passing from a side of a second center point to a side of a second positive electrode line. | 2017-06-01 |
20170155351 | POWER SUPPLY SYSTEM, TRANSPORTATION DEVICE, AND POWER TRANSMISSION METHOD - A power supply system includes a first energy storage, a second energy storage, a power transmission circuit, and circuitry. The first energy storage outputs first output power to an electric load. The second energy storage outputs second output power to the electric load. The circuitry is configured to acquire a demand power to be supplied to the electric load. The circuitry is configured to acquire a remaining capacity value indicating remaining capacity in the second energy storage. The circuitry is configured to control the power transmission circuit to change a ratio of the first output power to the second output power to supply the demand power in accordance with the demand power and the remaining capacity value. | 2017-06-01 |
20170155352 | Apparatus For Actuating And/Or Monitoring A Brushless DC Motor - A device for actuating and/or monitoring a brushless DC motor, preferably for safety-relevant applications, preferably while operating or controlling a vehicle or components of a vehicle and a method for reliably checking the functional capability of the device are provided. The device can be actuated by a motor control unit by using a control signal for actuating and/or monitoring a brushless direct current motor by using a converter circuit includes a switching-off apparatus, a driver circuit which acts on the converter circuit and a testable diagnosis unit for monitoring the device and/or the converter circuit and/or the brushless direct current motor. The switching-off apparatus acts on the driver circuit. The testable diagnosis unit can be tested for a malfunction by using a testing command transmitted by the motor control unit. | 2017-06-01 |
20170155353 | METHOD AND DEVICE FOR DETERMINING A ROTOR TEMPERATURE, COMPUTER PROGRAM, AND COMPUTER PROGRAM PRODUCT - The invention relates to a method for determining a rotor temperature of an electric motor, in particular an asynchronous motor, the rotor temperature being determined at least in accordance with reactive powers and/or in accordance with losses of the electric motor. A first rotor temperature is determined in accordance with the reactive powers and, depending on an operating range of the electric motor, plausibility-checked or replaced by a second rotor temperature, which is determined in accordance with the losses. | 2017-06-01 |
20170155354 | MACHINE LEARNING DEVICE, MOTOR CONTROL SYSTEM, AND MACHINE LEARNING METHOD FOR LEARNING CLEANING INTERVAL OF FAN MOTOR - A machine learning device which learns the cleaning frequency of a fan motor which cools an electric motor mounted in a machine includes a state observation unit which observes the state of the machine, and a learning unit which updates an action value table for cleaning the fan motor, on the basis of a state variable observed by the state observation unit. This can improve both the life of the electric motor and the operating ratio of the machine. | 2017-06-01 |
20170155355 | INTERLOCK SYSTEM FOR MOUNTING AND JOINING PHOTOVOLTAIC MODULES - Assemblies and couplings for mounting PV modules are provided. An assembly is provided to avoid conflicts between linkages used to adjoin adjacent PV modules and leveling feet used to mount the PV modules to supporting structure. Specifically, an interlock support coupling is provided that may include a shaft with a locking portion disposed at the end that interfaces with an interlock bracket used to couple adjacent PV modules and a housing with an opening for receiving a connection with a supporting foot. An interlock bracket may be provided with a slot for receiving an interlock support coupling. | 2017-06-01 |
20170155356 | Hybrid Solar Panel Mounting Assembly with a Tilted Ledge - A trim-rail for use in a solar panel mounting assembly is disclosed. The trim-rail includes a tilted spring support ledge on a side of the trim-rail. A photovoltaic module is elastically supportable on the tilted spring support ledge when the photovoltaic module is installed on the tilted spring support ledge. | 2017-06-01 |
20170155357 | Panel Equipped with a Photovoltaic Device - The present invention provides a panel equipped with a photovoltaic device including an even number of columns of photovoltaic modules, the columns being aligned essentially parallel to a longitudinal edge of the panel. Each column includes an electrical pole on each extremity. The polarity of an electrical pole of one extremity being the inverse of that of the electrical pole of the other extremity and the poles of two adjacent columns being of inverse polarity. The present invention further provides an assembly of panels, an electrical device connected to a converter including an assembly and a method for the electrical connection to a converter of the panels of the assembly. | 2017-06-01 |
20170155358 | COMPOSITE SOLAR CELL, SOLAR CELL MODULE, AND CONCENTRATING SOLAR CELL - A composite solar cell comprises a spectroscopic element, a first photoelectric conversion element, and a second photoelectric conversion element. The first photoelectric conversion element is positioned in a first direction of the spectroscopic element and the second photoelectric conversion element is positioned in a second direction of the spectroscopic element. The first photoelectric conversion element is a perovskite-type photoelectric conversion element containing, in a light absorbing layer, a perovskite crystal structure material represented by a general formula R | 2017-06-01 |
20170155359 | Panel Equipped with a Photovoltaic Device - The present invention provides a panel equipped with a photovoltaic device including an even number of columns of photovoltaic modules, the columns being aligned essentially parallel to a longitudinal edge of the panel. Each column includes an electrical pole on each of extremity. The polarity of an electrical pole of one extremity being the inverse of that of the electrical pole of the other extremity, the poles of two adjacent columns being of inverse polarity, the electrical pole being in the form of a male connector when it is of one polarity and in the form of a female connector when it is of the inverse polarity. The male connectors and female connectors arranged so that they interlock with one another when the lower transverse edge of an upper panel overlaps the upper transverse edge of a lower panel. The present invention further provides an assembly of panels, an electrical device connected to a converter including an assembly and a method for the electrical connection to a converter of the panels of the assembly. | 2017-06-01 |
20170155360 | SOLAR MODULE - A Solar module, particularly hybrid photovoltaic solar hot water module, having at least two adjoining solar cells, which are configured at least partially bifacial and are embedded into a transparent laminate, wherein the laminate has a laminate rear-side on which a structure for guiding a heat transfer medium is provided, wherein a first section of the structure facing the laminate rear-side has a reflecting surface and is disposed to reflect the incidental light on the solar module, which does not directly strike the solar cells. | 2017-06-01 |
20170155361 | FREQUENCY-VARIABLE TERAHERTZ OSCILLATOR AND METHOD FOR MANUFACTURING THE SAME - A small-sized frequency-variable terahertz oscillator has a successive and large frequency-sweeping width even at a room temperature. The frequency-variable terahertz oscillator includes a slot antenna, a resonant tunneling diode and a varactor diode arranged parallel to each other along the slot antenna. The frequency-variable terahertz oscillator oscillates in a terahertz frequency range when the resonant tunneling diode and the varactor diode are separately applied with a direct voltage. | 2017-06-01 |
20170155362 | LOCAL OSCILLATOR PATHS - Provided herein are oscillator paths between an oscillator and mixers. In an embodiment, the oscillator paths include a first path between an oscillator and a first mixer and a second path between the oscillator and the second mixer, in which the first path is enabled in a first state (e.g., a low band state) and the second path is enabled in a second state (e.g., a high band state). The first path can include a radio frequency divider configured to receive a signal having the oscillator frequency and to divide the signal in frequency by a positive odd integer divisor greater than one, and a duty cycle correction circuit configured to receive an output from the radio frequency divider and provide an output having a duty cycle that is closer to 50% than the output from the divider. Such separate oscillator paths can, for example, enhance receiver performance. | 2017-06-01 |
20170155363 | AMPLIFIER CIRCUIT AND METHOD OF RECOVERING INPUT SIGNAL IN THE AMPLIFIER CIRCUIT - An amplifier circuit and a method of recovering an input signal in the amplifier circuit are provided. The amplifier circuit may recover an input signal by using a time constant and an output signal of a signal amplifier which is delayed by a certain period, based on characteristics of an inverse Laplace transform of a transfer function of the signal amplifier. A time required for recovering the input signal may be shorter than the time constant of the signal amplifier. | 2017-06-01 |
20170155364 | Power Amplifier, Radio Remote Unit, and Base Station - A power amplifier, a radio remote unit (RRU), and a base station, where the power amplifier includes an envelope controller, a main power amplifier, and an auxiliary power amplifier. The main power amplifier and the auxiliary power amplifier both set an envelope voltage output by the envelope modulator as operating voltages, and because the operating voltages of the main power amplifier and the auxiliary power amplifier may be adjusted simultaneously, symmetry of the power amplifier is improved, and an efficiency loss occurring probability is low, thereby enhancing efficiency of the power amplifier. | 2017-06-01 |
20170155365 | AMPLIFIER ARRANGEMENT AND AMPLIFICATION METHOD - An amplifier arrangement has an input transistor being connected between reference potential terminals by a current source and a current sink. An amplifier stage has an amplifier output coupled to a first connection node between the current sink and a first terminal of the input transistor by means of a feedback path, and an amplifier input connected to a second connection node between the current source and the second terminal of the input transistor. A level-shifting structure has a level-shifting element with one end connected to a reference connection, wherein the level-shifting element is adapted to perform a level-shifting of a potential at the second connection node with respect to a potential at the reference connection. The reference connection is coupled to one of the following: the amplifier output, the first connection node, a control terminal of the input transistor. | 2017-06-01 |
20170155366 | APPARATUS AND METHODS FOR POWER AMPLIFIER BIASING - Apparatus and methods for power amplifier biasing are disclosed herein. In certain implementations, a power amplifier system includes a power amplifier bias circuit and a power amplifier. The power amplifier bias circuit includes a reference current source that generates a reference current, a bipolar reference transistor, and a transimpedance amplifier that amplifies a difference between a collector current of the bipolar reference transistor and the reference current, and that provides a base bias voltage to a base of the bipolar reference transistor. The power amplifier generates a radio frequency output signal at an output based on amplifying a radio frequency input signal received at an input. The power amplifier includes a bipolar power amplifier transistor including a base biased by the base bias voltage such that the power amplifier has a substantially flat gain response versus time. | 2017-06-01 |
20170155367 | POWER AMPLIFICATION MODULE - A power amplification module includes: a first transistor that amplifies a first radio frequency signal and outputs a second radio frequency signal; a second transistor that amplifies the second radio frequency signal and outputs a third radio frequency signal; and first and second bias circuits that supply first and second bias currents to bases of the first and second transistors. The first bias circuit includes a third transistor that outputs the first bias current from its emitter or source, a capacitor that is input with the first radio frequency signal and connected to the base of the first transistor, a first resistor connected between the emitter or source of the third transistor and the base of the first transistor, a second resistor connected between the capacitor and the emitter or source of the third transistor, and a third resistor connected between the capacitor and the base of the first transistor. | 2017-06-01 |
20170155368 | Calculating And Adjusting The Perceived Loudness And/Or The Perceived Spectral Balance Of An Audio Signal - The invention relates to the measurement and control of the perceived sound loudness and/or the perceived spectral balance of an audio signal. An audio signal is modified in response to calculations performed at least in part in the perceptual (psychoacoustic) loudness domain. The invention is useful, for example, in one or more of: loudness-compensating volume control, automatic gain control, dynamic range control (including, for example, limiters, compressors, expanders, etc.), dynamic equalization, and compensating for background noise interference in an audio playback environment. The invention includes not only methods but also corresponding computer programs and apparatus. | 2017-06-01 |
20170155369 | VOLUME LEVELER CONTROLLER AND CONTROLLING METHOD - Volume leveler controller and controlling method are disclosed. In one embodiment, A volume leveler controller includes an audio content classifier for identifying the content type of an audio signal in real time; and an adjusting unit for adjusting a volume leveler in a continuous manner based on the content type as identified. The adjusting unit may configured to positively correlate the dynamic gain of the volume leveler with informative content types of the audio signal, and negatively correlate the dynamic gain of the volume leveler with interfering content types of the audio signal. | 2017-06-01 |
20170155370 | ACOUSTIC WAVE ELEMENTS AND ANTENNA DUPLEXERS, AND MODULES AND ELECTRONIC DEVICES USING SAME - A method of manufacturing an acoustic wave element includes simultaneously forming a plurality of electrodes on a piezoelectric substrate, the plurality of electrodes including first and second IDT electrodes and a connection electrode, forming an insulation over the plurality of electrodes and the piezoelectric substrate, the insulation having a first thickness in a direction perpendicular to the surface of the piezoelectric substrate over the second IDT electrode, processing a first portion of the insulation over the first IDT electrode and a second portion of the insulation over the connection electrode to reduce a thickness of the first and second portions of the insulation to a second thickness, and processing a third portion of the insulation over the surface of the second IDT electrode to reduce the first thickness of the third portion to a third thickness, the third thickness being greater than the second thickness. | 2017-06-01 |
20170155371 | Resonator Circuit Having Greater Degrees of Freedom, Filter with Improved Tunability, and Duplexer with Improved Tunability - A resonator circuit, a filter with improved tunability, and a duplexer with improved tunability are disclosed. In an embodiment, the resonator circuit includes a resonator, a Z transformer and an impedance circuit, wherein the impedance circuit has an impedance Z and includes an impedance element, wherein the Z transformer is interconnected between the resonator and the impedance circuit, and wherein the Z transformer transforms the impedance Z to a new impedance Z′≠Z and comprises a transformation circuit selected from: a generalized impedance converter (GIC), an negative impedance converter (NIC), a generalized impedance inverter (GII) and an negative impedance inverter (NII). | 2017-06-01 |
20170155372 | ELASTIC WAVE DEVICE AND MANUFACTURING METHOD THEREOF - An elastic wave device includes interdigital transducer electrodes on a piezoelectric substrate and wires electrically connected to the interdigital transducer electrodes. The wires include a first wire and a second wire. The device further includes an interlayer insulating film made from an inorganic dielectric material and covering a portion of the first wire. A portion of the second wire bridges a portion of the first wire with the interlayer insulating film provided therebetween. In a region, in a bridged area, where the second wire extends from a region on an outer side portion of the interlayer insulating film to above the interlayer insulating film, first auxiliary wire electrodes are provided on the piezoelectric substrate, such that when viewed in plan view, the first auxiliary wire electrodes at least partially overlap with the second wire and extend to within the interlayer insulating film. | 2017-06-01 |
20170155373 | SURFACE ACOUSTIC WAVE (SAW) RESONATOR STRUCTURE WITH DIELECTRIC MATERIAL BELOW ELECTRODE FINGERS - A surface acoustic wave (SAW) resonator structure includes a substrate, a piezoelectric layer disposed on the substrate, and an interdigital transducer (IDT) electrode disposed over the piezoelectric layer. The IDT electrode includes multiple busbars and multiple electrode fingers extending from each busbar, where the electrode fingers are configured to generate surface acoustic waves in the piezoelectric layer. The SAW resonator structure further includes dielectric material disposed between the piezoelectric layer and at least at portion of the IDT. The dielectric material may be positioned below tips of the electrode fingers, thereby mass-loading the electrode fingers. | 2017-06-01 |
20170155374 | Duplexer - A duplexer is disclosed. In an embodiment, the duplexer includes a Tx filter and an Rx filter, wherein the Tx filter includes first series-interconnected basic elements, each first basic element having a first electroacoustic resonator and first impedance converters interconnected in series between the first basic elements, wherein the Rx filter comprises second series-interconnected basic elements, each second basic element having a second electroacoustic resonator and second impedance converters interconnected in series between the second basic elements, wherein the first impedance converters in the Tx filter are impedance inverters, wherein the first resonators of the first basic elements in the Tx filter are only series resonators, wherein the second impedance converters in the Rx filter are admittance inverters, and wherein the second resonators of the second basic elements in the Rx filter are only parallel resonators. | 2017-06-01 |
20170155375 | RF Filter - An RF filter is disclosed. In an embodiment, the RF filter includes series-interconnected basic elements, each basic element having an electroacoustic resonator and impedance converters interconnected in series between the basic elements, wherein the impedance converters are admittance inverters, wherein the resonators of the basic elements are parallel resonators only, and wherein at least one of the resonators is tunable. | 2017-06-01 |
20170155376 | HIGH-FREQUENCY MODULE - In a high-frequency module, first and second inductors that adjust attenuation characteristics of a first filter of a filter component, are separated from each other such that the first and second inductors readily magnetic field couple with each other. Consequently, an amount of wiring used to define a first wiring electrode inside the filter component is reduced and a number of layers of a package substrate and the profile of the filter component are reduced. Consequently, variations in the attenuation characteristics of the first filter caused by the first wiring electrode electromagnetic-field coupling with another wiring electrode are prevented. The attenuation characteristics of the first filter is easily adjusted and improved by adjusting the inductance value of the second inductor. | 2017-06-01 |
20170155377 | DRIVING CIRCUIT FOR POWER SWITCH - A driving circuit for driving a power switch. The driving circuit and the power switch are collaboratively defined as an equivalent circuit. The equivalent circuit includes a first equivalent capacitor corresponding to an input capacitor of the power switch, an equivalent inductor, and a second equivalent capacitor corresponding to a parasitic parameter of at least one driving switch. In the charging procedure or the discharging of the first equivalent capacitor, a change amount of charges in the first equivalent capacitor while a voltage of the input capacitor is changed from a voltage corresponding to no inductor current to a set voltage is larger than or equal to a change amount of charges in the second equivalent capacitor while the voltage of the input capacitor is changed from the voltage corresponding to no inductor current to a steady voltage. | 2017-06-01 |
20170155378 | APPARATUS AND METHOD FOR ACTIVATING CIRCUITS - Aspects of the disclosure include an apparatus that has a first clock generator and a second clock generator. The first clock generator is configured to drive a first circuit, causing the first circuit to (i) receive a signal corresponding to an audio input, and (ii) determine whether an energy level of the signal exceeds a predetermined threshold. The second clock generator is activated when the first circuit determines that the energy level of the signal exceeds the predetermined threshold. The second clock generator is configured to drive a second circuit, causing the second circuit to determine whether the signal matches a predetermined pattern. A third circuit is activated when the second circuit determines that the signal matches the predetermined pattern. | 2017-06-01 |
20170155379 | Full-Wave Charge Pump With Low-Voltage Startup - A charge pump with low-voltage startup is presented. The charge pump circuit is comprised of transistor pairs arranged in stages, where the charge pump circuit is configured to receive an input voltage and generate an output voltage whose magnitude is larger than magnitude of the input voltage. An energy storage device is configured to receive and store voltage from the charge pump circuit. A switching circuit is interfaced with the control terminals of the transistors in the charge pump circuit. In response to leakage current through the transistors in the charge pump circuit, the switching circuit switches on select transistors in the charge pump circuit while voltage stored by the energy storage device is below threshold voltage of the transistors in the charge pump circuit. | 2017-06-01 |
20170155380 | LATCHED COMPARATOR CIRCUIT - Some embodiments include apparatuses having input nodes to receive input signals, output nodes to provide output signals, a first stage including a first pair of input transistors, the first pair of transistors including gates coupled to the input nodes, a second stage including a second pair of input transistors, the second pair of transistors including gates coupled to the input nodes, and a third stage including inverters coupled to the output nodes. The inverters are coupled to the first and second stages at the same nodes to switch the output signals between different voltages based on the input signals. | 2017-06-01 |
20170155381 | PWM MODULATOR - A method is for reducing pulse skipping from a characteristic affecting a modulating signal input to an integrator of a pulse width modulation (PWM) modulator, together with a square wave carrier signal for generating a triangular waveform of the PWM modulator. The method may include creating a broad synchronous peak at vertexes of the triangular waveform output by the integrator. | 2017-06-01 |
20170155382 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE HAVING DELAY CIRCUIT - A semiconductor integrated circuit device may include a first circuit, a second circuit, and a delay circuit. The first circuit may include an output node. The second circuit may include an output node. The delay circuit may be coupled between the output node of the first circuit and the output node of the second circuit to selectively delay an output signal from the first circuit and an output signal from the second circuit. | 2017-06-01 |
20170155383 | POWER AMPLIFIER SATURATION DETECTION - In a portable radio transceiver, a power amplifier system includes a saturation detector that detects power amplifier saturation in response to duty cycle of the amplifier transistor collector voltage waveform. The saturation detection output signal can be used by a power control circuit to back off or reduce the amplification level of the power amplifier to avoid power amplifier control loop saturation. | 2017-06-01 |
20170155384 | LOAD DRIVING CIRCUIT - When a battery power supply voltage is applied to a drain of an output transistor at activation time, a drain-gate path of the output transistor is coupled and the output transistor tends to turn on by itself. A simplified power supply circuit operates in response to current conduction of a drain-source path of the output transistor. The simplified power supply circuit is activated at earlier time than activation of a power supply voltage Vcc of a logic power supply circuit, when the simplified power supply circuit operates with a main power supply voltage. The malfunction prevention circuit thus sets a gate voltage of the output transistor to a ground voltage by using an output generated by the simplified power supply circuit. As a result, malfunction of the output transistor is prevented at earlier time in comparison to malfunction prevention by initialization. | 2017-06-01 |
20170155385 | CONTROL CIRCUIT WITH FEEDBACK - A gate drive circuit adapted to control a power semiconductor component, the gate drive circuit comprising a gate driver connectable to a positive auxiliary voltage and to a negative auxiliary voltage, the gate drive circuit comprising a feedback circuit having an inductive coupling element for providing a feedback signal, wherein one end of the feedback circuit having the inductive coupling element is connected to a known reference potential and the other end of the feedback circuit is connected to the gate driver, and the inductive coupling element is inductively coupled to the main current path of the power semiconductor component for providing feedback signal to the gate driver based on the change rate of the current of the power semiconductor component for limiting the change rate of the current of the power semiconductor component. | 2017-06-01 |
20170155386 | Apparatus for Offset Correction in Electronic Circuitry and Associated Methods - An apparatus includes a first field effect transistor (FET) that has a body and is coupled in a circuit. The apparatus also includes a second FET that has a body and is coupled in the circuit. The circuit has an offset because of a mismatch. The apparatus further includes an offset correction circuit coupled to the body of the first FET and to the body of the second FET. The offset correction circuit provides a first offset correction signal to the body of the first FET and provides a second offset correction signal to the body of the second FET. | 2017-06-01 |
20170155387 | OPERATING UNIT FOR AN ELECTRICAL APPARATUS, IN PARTICULAR FOR A VEHICLE COMPONENT - The invention relates to an operating unit ( | 2017-06-01 |
20170155388 | Key - A key is provided, including: a magnetic component arranged to generate a magnetic field; a closed loop, herein the closed loop includes a preset device in series connection and a conductor set in the magnetic field; a voltage drop detection chip, herein the voltage drop detection chip has two pins respectively connected to two ends of the preset device and an output port arranged to output a detected voltage drop signal between the two pins; and a key body movably connected on a supporting part, herein the key body is connected to the conductor, the key body can move in two opposite directions on the supporting part, and the key body drives the conductor to cut magnetic induction lines in the magnetic field during motion. | 2017-06-01 |
20170155389 | PHYSICALLY UNCLONABLE PRODUCT AND FABRICATION METHOD THEREOF - The present disclosure provides physically unclonable products and fabrication methods thereof. An exemplary fabrication method forming a resistor block; performing a resistance randomizing process to the resistor block to cause the resistor block to have a random resistance; forming a resistor block array using at least two resistor blocks obtained after the resistance randomizing process; and coupling at least one resistor block array with a product to form the physically unclonable product | 2017-06-01 |
20170155390 | Level Shift Device And Method - The present invention teaches a level shift device and a related method. The level shift device contains a first input terminal, a second input terminal, a number of output terminals, and a pulse generation circuit. The first input terminal is for receiving a first pulse input signal. The second input terminal is for receiving a second pulse input signal. The pulse generation circuit cyclically produces pulse output signals, one on each output terminal, according to the first and second pulse input signals. The level shift device further contains a third input terminal for receiving a third pulse input signal. The pulse generation circuit controls the number of pulse output signals produced within each cycle according to third pulse input signal. The present invention is able to produce various numbers of pulse output signals, which is flexible for different applications without investing a new design. | 2017-06-01 |
20170155391 | INTEGRATED LEVEL SHIFTER - GaN-based half bridge power conversion circuits employ control, support and logic functions that are monolithically integrated on the same devices as the power transistors. In some embodiments a low side GaN device communicates through one or more level shift circuits with a high side GaN device. Both the high side and the low side devices may have one or more integrated control, support and logic functions. Some devices employ electro-static discharge circuits and features formed within the GaN-based devices to improve the reliability and performance of the half bridge power conversion circuits. | 2017-06-01 |