51st week of 2015 patent applcation highlights part 59 |
Patent application number | Title | Published |
20150364973 | ELECTRIC TOOL - In the present invention, a housing having a trunk part accommodating therein a brushless motor and an output part to which a tip tool is to be connected, a handle part having one end connected to the trunk part, and an accommodation part provided at an other end of the handle part is used, and a FET serving as a switching element that supplies power to the motor is accommodated in the accommodation part from which a power supply cord is pulled out. It is possible to reduce the length of the trunk part in the front-rear direction compared to a case where the FET is disposed in the front-rear direction of the motor. | 2015-12-17 |
20150364974 | DEVICE FOR DAMPING VIBRATIONS WITH AN ENERGY RECOVERY CAPABILITY, AND VEHICLE WITH SUCH A DEVICE - A device for damping vibrations with an energy recovery capability includes an input shaft rotatable about the input shaft longitudinal axis with an alternating rotational direction by a component that vibrates relative to the device. A freewheel device is connected to the input shaft on the drive side and at least indirectly to a generator on the output side, the generator being capable of converting the kinetic rotational energy into electric energy and transferring said energy to an energy storage element, and the freewheel device includes a first and a second freewheel, each being rotationally fixed to the input shaft on the drive side and arranged so as to lock in opposite directions of rotation. The second freewheel is connected to a reversing gear mechanism on the output side, and the reversing mechanism and the first freewheel are at least indirectly connected to the generator on the output side. | 2015-12-17 |
20150364975 | ROTOR WITH HEAT SINK - A rotor for an electric motor has a shaft, a rotor core and rotor windings. The rotor core is fixed to the shaft and has a number of teeth. A winding slot is formed between adjacent teeth. The rotor includes a heat sink made of a thermally conductive material. The heat sink includes two annular portions and a plurality of connecting members connecting the two annular portions. The annular portions are located at respective axial ends of the rotor core. The connecting members are disposed in respective winding slots and are thermally connected with the rotor windings. | 2015-12-17 |
20150364976 | OVERHEAT DETECTION DEVICE FOR ELECTRIC MOTOR EQUIPPED WITH MULTIPLE PTC THERMISTORS - The overheat detection device for an electric motor of the present invention includes: PTC thermistors each attached to the coil of a different phase of a three-phase AC electric motor and connected in series; an overheat determination unit for determining overheat of coils based on the output voltage from the serially connected circuit of the PTC thermistors; and, an output voltage control unit that controls the output voltage from the PTC thermistors in accordance with the electric angle or magnetic phase of the three-phase AC electric motor. | 2015-12-17 |
20150364977 | STATOR, STATOR MANUFACTURING METHOD, AND ROTARY ELECTRIC MACHINE - A flat wire ( | 2015-12-17 |
20150364978 | Electric Machine - An electric machine that includes a stator and a rotor, wherein the rotor is adapted to rotate relatively to the stator, and wherein the rotor comprises a rotor-switching-device which is arranged at the rotor. | 2015-12-17 |
20150364979 | MAGNETIC ELECTRICITY GENERATOR - An electricity generator using a six-segment rotating flux switch, a 2×2 switching sequence with four magnetic flux switch sites, and a unique magnetic circuit design, all of which together alternate the magnetic flux from a stationary permanent magnet through a stationary magnetic segment around which is wound a pickup coil thereby inducing electricity in the pickup coil. Both the vector direction and the scalar value of the magnetic flux are alternated within the stationary magnetic segment resulting in a high power output of AC electricity. | 2015-12-17 |
20150364980 | VOICE COIL MOTOR - A voice coil motor includes a base, a first resilient member, a movable member, a wire coil, a second resilient member, a housing, and a group of magnets. The base includes a through hole, a circular groove surrounding the through hole and guide poles extending away from the base. The first resilient member includes a number of guide holes arranged at a peripheral. The movable member includes a receiving through hole for receiving a lens module, a top end and a bottom end, the moveable frame is fixed with the first resilient member and suspended above the circular groove. The wire coil surrounds the movable member. The second resilient member locates on the top end of the moveable frame. The housing receives the base. Each magnets is fixed to the second resilient member, the magnets and the wire coil cooperatively generate a magnetic force for driving the movable member. | 2015-12-17 |
20150364981 | ROTATIONAL MOVEMENT MULTIPLIER - According to an exemplary embodiment, a rotational movement multiplier apparatus may be described. The rotational movement multiplier may be formed of at least one of a support structure, a lower platform, a support platform, and an upper platform that may be rigidly connected to the support structure. A driver disc may be rigidly connected to a driver shaft and a coupler may connect the driver shaft to a motor. Two or more rotor discs may be rigidly connected to a corresponding rotor shaft that may be rotatably connected with bearings to the support structure, and a first plurality of magnets may be rigidly connected to the driver disc and a second plurality of magnets may be rigidly connected to the rotor disc. Finally, the driver disc may be magnetically coupled to the rotor disc and may transmit rotational movement to the rotor disc without loss of torque or rotational speed. | 2015-12-17 |
20150364982 | Converter System Using Efficient Map And Method Of Controlling Same - Provided is a converter system including: a plurality of converter modules connected to one power source in parallel; and a controller for storing mapping information of first parameters corresponding to processing power of the converter modules and second parameters corresponding to the number of converter modules that optimally process the processing power among the converter modules, configuring a value of the first parameter according to a measurement value of power input into the converter modules or power output from the converter modules, calculating a value of the second parameter by substituting the value of the first parameter into the mapping information, selecting the number of converter modules corresponding to the value of the second parameters as active converter modules from the converter modules and processing the processing power by using the active converter modules, and controlling output power of the active converter module to gradually increase or decrease in a transient state where the value of the second parameter is changed. | 2015-12-17 |
20150364983 | System and Method for Efficient Circuit Switching Using a Double-Ended Line Driver Circuit - Serial arranged circuits allow multiple different circuit nodes to receive power with a single conductor line carrying current. Data can be transmitted to the serially arranged circuit nodes by modulating the current on the single conductor line. However, switching transistors to modulate current can consume energy. To reduce the switching losses, a double ended driver circuit is disclosed. The doubled ended driver circuit includes switching capacitors and inductors at both ends of a serial string of circuit nodes. | 2015-12-17 |
20150364984 | POWER SUPPLY APPARATUS FOR POWER CONVERTERS - In a power supply apparatus, an upper-arm control unit includes a first switching element connected between a DC power source and a primary side of each upper-arm transformer. The upper-arm control unit controls on and off operations of a first voltage-controlled switching element to control supply of an output voltage of the DC power source to the primary side of each upper-arm transformer. A lower-arm control unit includes a second voltage-controlled switching element connected between the DC power source and a primary side of the at least one lower-arm transformer. The lower-arm control unit controls on and off operations of a second switching element to control supply of the output voltage to the primary side of the at least one lower-arm transformers. Each upper-arm transformer is arranged adjacent to the upper-arm control unit, and the at least one lower-arm transformer is arranged adjacent to the lower-arm control unit. | 2015-12-17 |
20150364985 | SYSTEM FOR OPERATION CONTROL OF INVERTER IN EMERGENCY SITUATION - A system for inverter operation control in an emergency situation is provided, the system including: an inverter; an upper level controller configured to set a first operation mode for a normal operation of the inverter and a second operation mode in response to an emergency situation of the inverter; and a controller configured to control an operation of the inverter, by stopping an operation of the inverter when a measured voltage value or a measured current value of the inverter satisfies a first condition when the first operation mode is set, and by maintaining an operation of the inverter even when a measured voltage value or a measured current value of the inverter satisfies a first condition when the second operation mode is set. | 2015-12-17 |
20150364986 | MODULAR MULTI-STAGE INVERTER COMPRISING SURGE ARRESTER - Electric power is transferred between an AC voltage grid and a DC voltage grid in the high-voltage range. Phase modules have at least one common DC voltage connection and separate AC voltage connections. A phase module branch between the DC voltage connection and each AC voltage connection has a series circuit of two-pole sub-modules, each with an energy storage device and a power semiconductor circuit in parallel with the energy storage device. The power semiconductor circuit is driven to generate either the voltage drop across the energy storage device or else a zero voltage at the two sub-module connection terminals. A converter transformer has a primary side on an AC voltage grid and a secondary side connected to the AC voltage connections. Improved protection against overloading is provided by at least one surge arrester between the or one of the common DC voltage connections and the inverter neutral point. | 2015-12-17 |
20150364987 | POWER CONVERTER AND POWER CONVERSION METHOD - A line-to-ground fault location detector detects, based on a difference between a current flowing from a power transmission circuit to a load circuit, and a current flowing from the load circuit to the power transmission circuit, whether a line-to-ground fault is occurring at a power-transmission-circuit side or a load-circuit side. A contactor controller opens a first contactor when the load circuit detects the occurrence of the line-to-ground fault, and when a line-to-ground fault location detector detects that a location of the line-to-ground fault is at the power-transmission-circuit side, the contactor controller maintains the open state of the first contactor even if an operation to instruct closing of the first contactor is made after the first contactor is opened. | 2015-12-17 |
20150364988 | PFC CONTROL CIRCUIT, DIGITAL PFC CIRCUIT AND THE METHOD THEREOF - A digital PFC circuit with improved power factor is described. The digital PFC circuit uses a compensation current generating unit and a reference current adjust unit to eliminate the effect of a current flowing through an input capacitor to the input current, so that the input current and the input line voltage of the digital PFC circuit are controlled to be in-phase. | 2015-12-17 |
20150364989 | POWER FACTOR CORRECTION CIRCUIT FOR A POWER ELECTRONIC SYSTEM - A power factor correction circuit for a power electronic system comprising a series-pass device arranged to control an input characteristic of a power converter, and a control mechanism arranged to control an operation of the series-pass device during a power conversion process, so as to increase a power factor of the power electronic system and/or to reduce a harmonic distortion generated by the power converter to an electrical current supplied by a power source in the power electronic system. | 2015-12-17 |
20150364990 | THREE-PHASE PARALLEL POWER CONVERTER LOAD ADJUSTMENT - A sharing criteria metric is received for each of three phases of a three-phase power. Loads on power converters receiving the three phase power are adjusted based on the sharing criteria metric of each of the three phases. | 2015-12-17 |
20150364991 | INPUT FILTER FOR A POWER ELECTRONIC SYSTEM - An input filter for a power electronic system includes a series-pass device arranged to control an input characteristic of a power converter, and a control mechanism arranged to control an operation of the series-pass device during a power conversion process, so as to filter a noise signal generated by the power converter from reaching a power source of the power electronic system. | 2015-12-17 |
20150364992 | CHARGE PUMP SYSTEM AND CHARGE PUMP PROTECTION CIRCUIT - A charge pump system may include a charge pump including a plurality of boosting units boosting an input voltage input to an input terminal multiple times depending on clock signals and outputting the boosted voltage to an output terminal; and a charge pump protection circuit including a series resistor unit disposed between the output terminal and a ground and including a plurality of resistors connected to each other in series. A portion of the plurality of resistors are disposed in parallel to a portion of the plurality of boosting units. | 2015-12-17 |
20150364993 | BOOST CONVERTER STAGE SWITCH CONTROLLER - A low voltage lamp includes a boost converter stage and a load. The load may include low voltage light producing elements including low voltage light emitting diodes. The boost converter stage receives an electronic transformer output and includes an inductor coupled to a switch and a switch controller that receives one or more controller inputs. Inductor current may be returned to the transformer when the switch is closed and provided to a rectifier coupled to the load when the switch is open. Controller inputs may include a transformer input that receives the transformer output, a sense input indicating switch current, and a load input indicating load voltage. Controller logic may synchronize assertions of a control signal for the switch with edge transitions of the transformer output to maintain peak inductor current within a specified range and to selectively transfer stored energy in the inductor to the load or back to the transformer. | 2015-12-17 |
20150364994 | TRANSIENT POWER CONTROL - Automatic transient control circuitry may be used to alleviate issues relating to large changes in power demands by a load in an integrated circuit. The transient control circuitry may inject current to or retract current from a load, for example charging or discharging a bypass capacitor associated with the load, when circuitry of the load is commanded to an operational state from a standby state or vice-versa, respectively. | 2015-12-17 |
20150364995 | CURRENT SENSING CIRCUIT FOR SWITCHING POWER CONVERTERS - A current sensing circuit for a switched mode power converter employs a passive current sensing network coupled in parallel with the switched inductor. The passive current sensing network is impedance matched to the inductance its inherent resistance, and provides a current sensing node for single wire current sensing by a current sensing circuit. The passive current sensing network can be employed in each of a plurality of phased switching circuits that each contribute to an output of the power converter. | 2015-12-17 |
20150364996 | POWER CONVERTER AND CONTROLLER DEVICE - A switching power converter for DC-DC converting has an inductance coupled between a power output and a high side switch in a controller device. The controller device has an error amplifier coupled to the power output and a reference voltage for activating the high side switch. The controller device has a bypass circuit including a bypass switch coupled between the supply input and the power output, a bypass driver having a first input coupled to the power output and a second input coupled to the reference voltage, and an output coupled to the bypass switch for activating the bypass switch. The controller further has a high bypass current sensor for generating a transient signal based on a current via the bypass switch, and a bandwidth control circuit for increasing the bandwidth of the error amplifier based on the transient signal. | 2015-12-17 |
20150364997 | CONTROL CIRCUIT, BATTERY POWER SUPPLY DEVICE AND CONTROL METHOD - A control circuit can include: (i) a boost mode controller configured to control a switch type converter to operate in a boost mode such that an input current is less than a first input current threshold, where the switch type converter comprises a first terminal coupled to a power supply line from an external power supply to a load, and a second terminal coupled to a battery; (ii) a buck mode controller configured to control the switch type converter to operate in a buck mode; and (iii) a select circuit configured to select either the boost mode controller or the buck mode controller to control the switch type converter based on a detected value of the input current of the external power supply and a detected value of a battery charging/discharging current. | 2015-12-17 |
20150364998 | DC-DC CONVERTER WITH IMPROVED DISCONTINUOUS CONDUCTION MODE EFFICIENCY - A switch-mode DC converter configured to generate a converted voltage from an input voltage is provided. The switch-mode DC converter includes an inductor configured to store energy, and a switch coupled with the inductor at a switching node, wherein the switch is configurable to be turned on or off to control the discharging of the energy stored at the inductor to an output node of the converter, wherein the output node is configured to provide the converted voltage. The switch-mode DC converter also includes a circuit configured to control a timing of turning-off of the switch based on a voltage difference between the switch, wherein a measurement of the voltage difference is adjusted based on a voltage at the switching node. | 2015-12-17 |
20150364999 | SEMICONDUCTOR INTEGRATED CIRCUIT AND POWER SUPPLY - A semiconductor integrated circuit includes: a die pad region; a plurality of external lead pins arranged around the die pad region; and DC/DC converters arranged in corners on the die pad region. | 2015-12-17 |
20150365000 | FULL BRIDGE DC/DC CONVERTER CONTROL TECHNIQUES - The present disclosure describes full bridge power supply systems and control methods. In at least one embodiment, the full bridge power supply system may be driven utilizing a two-phase continuous conduction switching mode to control the inductor current. In another embodiment, the full bridge power supply system may be driven utilizing variably-configured three-phase continuous conduction modes to control the inductor current when an input voltage is within a window value to the output voltage. In another embodiment, the full bridge power supply may be driven using a four-phase discontinuous conduction switching mode to control the inductor current when a load current is below a current lower threshold. | 2015-12-17 |
20150365001 | Gate Drive Power Supply for Inverter - A gate drive power supply (GDPS) system includes a voltage boost stage configured to boost an input voltage into a boost voltage and an inverter stage configured to invert the boost voltage into an AC voltage. The GDPS system further includes gate drive voltage supply circuits transformer coupled to the inverter stage to receive an AC output based on the AC voltage and configured to convert the AC output into DC supply voltages for gate drives. | 2015-12-17 |
20150365002 | POWER CONVERSION SYSTEM AND POWER CONVERSION METHOD - A power conversion system includes at least two power converters and a current sharing bus, each power converter including a switching circuit, a power conversion circuit configured to receive an input voltage via the switching circuit and to provide a local output current, an output sense circuit configured to detect the local output current and to generate a local output current sense signal, a current sharing terminal coupled to the local output current sense signal via a resistor and coupled to the current sharing bus; and a PWM controller configured to adjust a duty cycle of the switching circuit based at least in part on the local output current sense signal provided by the output sense circuit and an average current signal on the current sharing bus. | 2015-12-17 |
20150365003 | Power Conversion System - A power conversion system includes a power input, a power output, and a number of stackable power conversion modules having inputs connected to the power input and outputs connected to the power output, each including a transformer switched at a higher frequency than a grid frequency. | 2015-12-17 |
20150365004 | AC-DC POWER CONVERTER - In one embodiment, an AC-DC power converter can include: (i) a rectifier bridge and filter to convert an external AC voltage to a DC input voltage; (ii) a first energy storage element to store energy from the DC input voltage via a first current through a first conductive path when in a first operation mode; (iii) a second energy storage element configured to store energy from a second DC voltage via a second current through a second conductive path when in the first operation mode; (iv) a transistor configured to share the first and second conductive paths; (v) the first energy storage element releasing energy to a third energy storage element and a load through a third conductive path when in a second operation mode; and (vi) the second energy storage element releasing energy to the load through a fourth conductive path during the second operation mode. | 2015-12-17 |
20150365005 | BIDIRECTIONAL CONVERTERS AND FLUX-BALANCING CONTROL METHODS THEREOF - A flux-balancing method for an isolated bidirectional converter uses a flux-balancing control loop and a current-balancing control loop to control the DC components in the primary and secondary currents. The flux-balancing control loop keeps the average magnetizing current substantially zero and the current-balancing control loop keeps the average primary current or the average secondary current substantially zero. The flux-balancing loop adjusts the duty ratio of a set of switches in a corresponding bridge. The adjusted duty ratio is designed to substantially eliminate the DC component in the magnetizing current. The current-balancing loop keeps the average primary current and the average secondary current substantially zero, and adjusts the duty ratio of the switches in a corresponding bridge to eliminate the corresponding DC component. | 2015-12-17 |
20150365006 | CONDUCTION DETECTING CIRCUIT, RECTIFYING SWITCH CONTROLLING CIRCUIT INCLUDING THE CONDUCTION DETECTING CIRCUIT AND POWER SUPPLY FOR THE RECTIFYING SWITCH CONTROLLING CIRCUIT TO BE APPLIED - A circuit configured to detect the conduction of a first body diode and a second body diode of the first and second synchronous rectification transistors is provided. The circuit includes a low-pass filter configured to generate a filtered voltage by receiving a detection voltage based on a drain voltage of the first synchronous rectification transistor and low-pass filtering the received drain voltage, a first comparator configured to compare whether the filtered voltage is higher than the detection voltage, and a second comparator configured to compare whether the detection voltage is higher than the filtered voltage. A time point of ending a first synchronous rectification conduction interval of the first body diode and a time point of a second synchronous rectification conduction interval of the second body diode are determined, according to outputs from the first and second comparators. | 2015-12-17 |
20150365007 | System and Method for Coupling a Monophase Power Source to a Multiphase Power Network - The invention relates to decentralized energy production. In particular, the invention concerns a system for coupling a monophase power source to an internal multiphase power network of a household, company, or other property. The internal network is further connected to an external power distribution grid. The system comprises an interface unit comprising a first connection point for said monophase power source and a second connection point for said multiphase power network, the interface unit allowing for monophase power from the monophase power source to be fed to the multiphase network, and means functionally connected to the interface unit for monitoring the loading states of individual phases of the multiphase power network. The interface has coupling means to couple monophase power to selectively one of the phases of the multiphase power network based on the loading states of the individual phases of the multiphase power network. The invention improves cost-efficient usage of locally produced power and saves transmission losses. | 2015-12-17 |
20150365008 | POWER CONVERSION DEVICE AND CONTROL METHOD THEREFOR - A power conversion device includes a converter, a DC reactor, and an inverter. A control unit controls the converter according to a sum of a feedback control amount and a feedforward control amount, the feedback control amount being calculated based on a deviation between a current command value and the DC current flowing into the DC reactor, the feedforward control amount being set in accordance with a DC voltage provided from the converter through the DC reactor. When an output frequency of the inverter is in a first region, the control unit reduces a control gain used to calculate the feedforward control amount, as compared to when the output frequency is in a second region having a frequency lower than that of the first region. | 2015-12-17 |
20150365009 | SIGNAL CONVERSION CIRCUIT AND POWER SUPPLY APPARATUS - A power supply apparatus including: a boost converter configured to generate a power supply voltage to drive to a load circuit from a voltage received from a voltage generation unit; an oscillator configured to receive the minute voltage, and to generate an alternating current signal; and a signal conversion circuit which further includes a half-wave generation circuit configured to receive the alternating current signal, and to generate a half-wave signal of a high potential side or a low potential side, and at least one inverter configured to receive the generated half-wave signal, and to generate a pulse signal; wherein the boost converter is driven by the pulse signal output from the signal conversion circuit in order to generate the power supply voltage. | 2015-12-17 |
20150365010 | POWER CONVERTER - A power converter with a simple configuration capable of controlling a rush current is provided. The power converter is installed between an electric power system and a power storage device, includes a harmonic filter in an AC circuit on the electric power system side and a DC capacitor and a DC breaker in a DC circuit on the power storage device side, and performs AC/DC conversion processing using an inverter. The power converter is configured in such a way that, when the power storage device starts running, a current limited by a limiting resistor is given from the electric power system side to the DC capacitor, the difference between the voltage of the DC capacitor and the voltage of the power storage device is monitored, and the power converter is connected to the power storage device by switching on the DC breaker on the basis of the difference. | 2015-12-17 |
20150365011 | BIPOLAR DOUBLE VOLTAGE CELL AND MULTILEVEL CONVERTER WITH SUCH A CELL - A multilevel converter cell includes a first section with a first group of series connected switching units in parallel with a first energy storage element, where a junction between a first and a second switching unit forms one cell connection terminal, a second section with a second group of series connected switching units in parallel with a second energy storage element, where a junction between a third and a fourth switching unit forms another cell connection terminal, and an interconnecting section with a third group of series-connected switching units comprising a fifth, sixth and seventh switching unit, with the fifth and sixth switching units connected in parallel with the first energy storage element and the sixth and seventh switching units connected in parallel with the second energy storage element. | 2015-12-17 |
20150365012 | CONVERTER ARRANGEMENT - A converter arrangement can include a first rectifier having an AC input and a DC output with two DC output poles, a capacitance (C) connected between the DC output poles of the first rectifier, a second rectifier having an AC input with two AC input poles and a DC output with two DC output poles, wherein the DC output of the second rectifier is connected between the DC output poles of the first rectifier. A magnetic amplifier includes at least one control winding (L | 2015-12-17 |
20150365013 | RF-DC Power Converter - A rectifier comprising a chain of transistors for RF-DC conversion. In order to compensate for the thresholds of the transistors, each transistor can be connected to a junction earlier or later in the chain. By using both p-type and n-type transistors in the same chain, the different types of transistors can be compensated in different directions allowing more transistors to be compensated. Additional transistors connected to the gates of transistors of the main chain can allow the transistors of the main chain to be forward compensated at one part of the input cycle and backward compensated in another part to minimize both the voltage threshold of the rectifier and the leakage current. The line for compensation of the voltage threshold during forward conduction can comprise a solid line or a transistor, and if a transistor is used it may be diode-connected. | 2015-12-17 |
20150365014 | PHOTOVOLTAIC POWER GENERATION SYSTEM - A photovoltaic power generation system includes a photovoltaic power generation module, a capacitor, a DC/AC voltage converter, a filter, a relay, a PWM controller, a calculation module, a control module, and a grid. The control module traces the maximum power of the photovoltaic power generation module, and detects whether the grid is abnormal or not. Finally, the DC power outputted from the photovoltaic power generation module is transferred to the AC power and outputted to the grid via the DC/AC voltage converter by using the PWM controller. | 2015-12-17 |
20150365015 | Reactor, Converter and Power Conversion Device - A reactor in which an assembly is easily assembled into a case and which is excellent in productivity is provided. In this reactor, two positions out of a total of four positions near opposite widthwise end parts of frame-shaped bobbins when an assembly accommodated in a case is viewed from above serve as positioning positions and the remaining two positions serve as escaping positions. At the positioning positions, projecting pieces provided on the frame-shaped bobbin are engaged with engaging grooves provided on the case. On the other hand, at the escaping positions, projecting pieces provided on the frame-shaped bobbin are allowed to escape in escaping portions (escaping grooves) provided on the case. | 2015-12-17 |
20150365016 | APPARATUS FOR DELAY ANGLE COMPENSATION OF FLYING START FUNCTION - An apparatus for delay angle compensation for flying start function in a medium-voltage inverter is disclosed. The apparatus generates generate a phase angle (θ) by converting a three-phase voltage of an inverter output terminal to dq-axis voltages (Vd, Vq), and calculate a compensation phase angle by a predetermined delay time. In addition, the apparatus generates an initial angle for the flying start by aggregating the compensation phase angle with the phase angle (θ). The apparatus may drive a high-voltage motor more stably, because an error between a command voltage phase angle and an actual output voltage phase angle may be reduced, when electric power of the medium voltage inverter is restored after a trip or an instantaneous blackout occurs. | 2015-12-17 |
20150365017 | TRANSDUCER AND MEASUREMENT APPARATUS - A transducer includes an element disposed on a substrate, where the element includes an electrode, and a connection electrode electrically connected to the electrode of the element. A conductive portion disposed on an insulating film of a flexible print circuit board is electrically connected to the connection electrode. Part of the conductive portion is exposed so as to face a surface of the substrate having the element disposed thereon. An insulation layer is disposed on part of the surface of the substrate facing the flexible print circuit board. | 2015-12-17 |
20150365018 | PIEZOELECTRIC VIBRATIONAL ENERGY HARVESTER - A vibrational energy harvester having a base and a piezoelectric transducer formed from a layer of piezoelectric material and extending between a first end at the base and a second end. At least a portion of the piezoelectric transducer is arranged in a back and forth pattern between the first and second ends. A magnetic component provides a magnetic field within which at least a portion of the piezoelectric transducer operates so that it exhibits nonlinear behavior. A biomedical implantable device using the vibration energy harvester can extract energy from heartbeat waveforms (heartbeats) to thereby power a device within the body. | 2015-12-17 |
20150365019 | MOTOR CONTROL DEVICE HAVING PROTECTIVE UNIT OF CHARGING RESISTOR - A motor control device includes a rectifier, a smoothing capacitor provided to a DC link, an inverter that power-converts DC power of the DC link and AC power of a motor side, an initial charging unit that charges the smoothing capacitor before motor driving start, a current detection unit that detects an AC current detection value of an input side of the rectifier, a current conversion unit that converts the detection value into a value corresponding to a DC link current, a current integration unit that outputs an integration value obtained by integrating the conversion value, an alarm output unit that outputs an alarm when the integration value is equal to or more than a first threshold value, a disconnecting unit that disconnects the AC power to the rectifier in response, and a protective unit that commands the disconnecting unit to disconnect the AC power when the alarm is output. | 2015-12-17 |
20150365020 | THYRISTOR STARTING DEVICE AND CONTROL METHOD THEREFOR - A thyristor starting device includes: a converter which converts AC power supplied from an AC power source into DC power; a DC reactor which smooths a DC current; an inverter which converts the DC power provided from the converter into AC power, and supplies the AC power to a synchronous machine; a gate pulse generation circuit which generates a gate pulse to be provided to thyristors of the converter and the inverter; a control unit which sets a phase control angle of the gate pulse to be provided to the thyristors of the converter, by controlling a current of the converter such that the DC current flowing into the DC reactor matches a current command value; and an abnormality detection unit which compares a detection value of the DC current with the current command value, and determines an abnormality in the gate pulse based on a comparison result. | 2015-12-17 |
20150365021 | CONVERTER AND METHOD FOR OPERATING SAME - A converter having at least one converter module, which includes a primary circuit connected to a power supply, a secondary circuit connected to a load, and a DC link circuit having an intermediate circuit capacitance, is operated according to the disclosed method by controlling the primary circuit such that the intermediate circuit voltage dropping across the intermediate circuit capacitance is adjusted to a predetermined desired voltage value which depends on the direction of the power flow in the secondary circuit. | 2015-12-17 |
20150365022 | COUPLED CAPACITIVE AND MAGNETIC SERVO MOTOR SYSTEMS - A motor system comprises a rotor shaft, and a magnetic drive motor and a capacitive drive motor. An engagement system is configured for selectively engaging one or both of the magnetic drive motor and the capacitive drive motor with the rotor shaft, in order to rotate the rotor shaft at a desired rotational speed and generate a desired output torque. An actuator may be coupled to the rotor shaft in order to convert the rotational speed and/or output torque (or a rotational position of the rotor shaft) for operation on a load, for example to position the load rotationally or linearly with respect to the rotor axis, or to exert a force or torque on the load. | 2015-12-17 |
20150365023 | MOTOR INTERFACE CONTROLLER HAVING AN INTEGRATED POWER SUPPLY - A motor assembly broadly includes a motor, a motor controller, and an interface controller having an integrated power supply. The integrated power supply includes an AC to DC power conversion and voltage reduction component. The motor controller and the interface controller receive line voltage electrical power without the need for an external transformer. | 2015-12-17 |
20150365024 | Motor Control System - Provided is a motor control system that can suppress production costs and suppress the occurrence of unexpected excessive torque, and continues system operation as much as possible even when the diagnosis results of a monitoring device are abnormal. A computation device ( | 2015-12-17 |
20150365025 | CONTROL APPARATUS FOR ROTATING MACHINE - A control apparatus, for a system including a rotating machine having a stator, around which a winding wire is wound, and a power conversion circuit, includes: a superimposition device that superimposes multiple harmonic currents, for converting a first electromagnetic force to a second electromagnetic force, on a fundamental wave current, the first electromagnetic force being a second or higher order electromagnetic force as a reduction object, the second electromagnetic force being a second or higher order electromagnetic force and different from the first electromagnetic force, an order of each harmonic current being between the first electromagnetic force and the second electromagnetic force; and a manipulation device that operates the power conversion circuit to flow the fundamental wave current, on which the harmonic currents are superimposed, in the winding wire. | 2015-12-17 |
20150365026 | SINGLE-SHUNT CURRENT SENSING FOR MULTI-PHASE MOTOR - A motor controller for providing a three-phase alternating current (AC) signal to a three-phase motor. The motor controller uses current feedback from a single shunt to monitor or control the three phase AC signal. The motor controller may include a three-phase DC to AC power inverter, a single-shunt current sensor, and a processor. During individual duty cycles when two or more phase signals are too close to each other, the processor may shift one of the phase signals in time so that its leading or trailing edges are a predetermined conflict time away from each other. Then, the processor may sample current from the single-shunt current sensor to determine currents of two of the three phase signals and then calculate current of a remaining one of the three phase signals. Sample times may depend on pulse widths and shifting of the phase signals. | 2015-12-17 |
20150365027 | METHOD AND SYSTEM FOR DETERMINING AN OFFSET BETWEEN A DETECTOR AND A POINT ON A MOTOR - The present disclosure relates to a method of determining an offset between a detector and a point on a motor, the movement of the point on the motor being impeded in at least one direction. In particular, this disclosure relates to a method of determining a commutation offset for an encoder that works in conjunction with a synchronous motor. The commutation offset is an offset between the detector and the north pole of a permanent magnet within the motor. The method comprises setting a test value for the offset, causing a displacement of the detector based on the test value and measuring that displacement. The method further comprises repeatedly increasing the test value, and causing and measuring a displacement for each so increased test value until it is determined that the test value has crossed a threshold. | 2015-12-17 |
20150365028 | Method for Determining the Rotor Position of a Synchronous Machine Operated in Field-Oriented Manner - A method for determining the rotor position of a synchronous machine operated in field-oriented manner, which has an effective inductivity that is dependent on the rotor position, | 2015-12-17 |
20150365029 | SENSORLESS CONTROL METHOD FOR MOTOR AND SYSTEM USING THE SAME - A sensorless control method for a motor performed by a sensorless controller including a back electromotive force (EMF) observer and a phase locked loop (PLL) controller, includes: estimating a back EMF of the motor using the back EMF observer; calculating an electrical angle error in accordance with iron loss of the motor based on the estimated back EMF; and compensating for the calculated electrical angle error, inputting the compensated electrical angle error into the PLL controller to estimate an actual angle, and controlling the motor based on the estimated actual angle. | 2015-12-17 |
20150365030 | DC MOTOR CONTROL METHOD AND DC MOTOR CONTROL CIRCUIT - The present disclosure provides a DC motor control method comprising comparing a first periodic signal and a second periodic signal for generating a control signal, wherein the frequency of the first periodic signal is lower than the frequency of the second periodic signal; configuring the amplitudes of the first periodic signal and the second periodic signal according to the needed speed of the DC motor, wherein increasing the ratio of the amplitude of the first periodic signal to the amplitude of the second periodic signal when the needed speed of the DC motor is increased, and decreasing the ratio of the amplitude of the first periodic signal to the amplitude of the second periodic signal when the needed speed of the DC motor is decreased. | 2015-12-17 |
20150365031 | METHOD FOR CONTROLLING A WIND TURBINE DURING AN ASYMMETRICAL GRID FAULT AND A WIND TURBINE - The invention is directed to a method for controlling a wind turbine connected to a three-phase electrical supply grid during an asymmetrical grid fault. The method is configured for wind turbines with a doubly-fed induction generator. The reactive current to be fed into the electrical supply grid in the negative phase-sequence system is generated by the line-side and the rotor-side converter in a coordinated manner and depends on the line voltage. The reactive current to be fed into the electrical supply grid is distributed among the rotor-side and line-side converters. As a result, even in the case of severely asymmetrical grid faults, the reactive current to be fed into the electrical supply grid can be provided and excessive loading of the rotor-side converter can be prevented using simple means. The invention is also directed to a wind turbine for performing the above method. | 2015-12-17 |
20150365032 | MOTOR CONTROL DEVICE AND MOTOR CONTROL METHOD - A motor control device includes a current command value calculating device calculating a basic current command value, a first compensation device compensating for a delay in the rotor magnetic flux response of the motor by amplifying the basic current command value, a first current command value limiting device for restricting a post-compensation current command value by a first current limiting value, a second compensation device calculating a compensation value for the amplified current command value, an adding device calculating the post-compensation current command value by adding the amplified current command value and the compensation value, and motor control device controlling the motor, the second compensation device calculating, as the compensation value, a command value corresponding to a portion limited by the first current limiting value of the amplified current amplification command value. | 2015-12-17 |
20150365033 | GRID-CONNECTED INDUCTION MACHINE WITH CONTROLLABLE POWER FACTOR - A method and system for controlling the power factor of induction machines connected to power distribution grids are provided. In some embodiments, the method can comprise inserting an adjustable voltage source in series with one or more windings of a grid-connected induction machine such that the adjustable voltage source can be adjusted to manipulate the phase angle of the current flowing through the one or more windings relative to the phase angle of the grid voltage. The system can comprise an adjustable voltage source in series with one or more windings of a grid-connected induction machine such that the adjustable voltage source can be adjusted to manipulate the phase angle of the current flowing through the one or more windings relative to the phase angle of the grid voltage. | 2015-12-17 |
20150365034 | POWER FACTOR CORRECTION WITH VARIABLE BUS VOLTAGE - A controller includes a voltage determination module, a bus voltage command module, and a power factor correction (PFC) control module. The voltage determination module determines a desired direct current (DC) bus voltage for a DC bus electrically connected between a PFC module and an inverter power module that drives a motor. The voltage determination module determines the desired DC bus voltage based on at least one of torque of the motor and speed of the motor. The bus voltage command module determines a commanded bus voltage based on the desired DC bus voltage. The PFC control module controls the PFC module to create a voltage on the DC bus that is based on the commanded bus voltage. | 2015-12-17 |
20150365035 | APPARATUS FOR DRIVING SWITCHED RELUCTANCE MOTOR AND METHOD OF CONTROLLING THE APPARATUS - There is provided an apparatus for driving a switched reluctance motor (SRM) including: a converter for applying a direct current (DC) voltage supplied from a power supply unit to each phase coil of the SRM via a switching operation; and a processor for controlling a switching operation of the converter based on a driving state of the SRM. | 2015-12-17 |
20150365036 | MOTOR APPARATUS HAVING SEPARATE WINDING SYSTEMS AND MASTER MODULE - A motor apparatus includes a motor having a first active part and a second active part, the first active part having a plurality of separately controllable windings, a control unit comprising a processing unit and for each of one or more of the windings a motor module, wherein the motor module has a power converter. The motor apparatus further has and a sensor device constructed to supply a position signal indicative of a position of the first active part relative to the second active part, wherein one of the motor modules is a master module, which receives the position signal directly from the sensor device as the only one of the motor modules, and transmits an item of position information corresponding to the position signal to the processing unit, and wherein another one of the motor modules is a slave module, which receives directly from the processing unit a single item of information regarding the position of the first active part relative to the second active part and controls the one or more windings as a function of the single item of information. | 2015-12-17 |
20150365037 | ALTERNATING CURRENT MOTOR DRIVE SYSTEM - An alternating current (AC) motor drive system is provided in which electric power can be supplied between a direct current (DC) bus and an electric power storage device, using a voltage value across a DC bus, without providing means that measures an amount of current flowing through the DC bus. In the AC motor drive system of the invention, according to a voltage value measured by DC voltage value detection means and a charge/discharge current amount measured by charge/discharge current amount detection means, a charge/discharge circuit causes an electric power storage device to discharge an amount of electric power, from among amounts of electric power supplied from an inverter to an AC motor, that exceeds a first electric power threshold value, or the circuit causes the electric storage device to store an amount of electric power, from among amounts of AC motor regenerative electric power regenerated via the inverter, that exceeds a second electric power threshold value. | 2015-12-17 |
20150365038 | Rotary Electric Machine Driving Device - A rotary electric machine driving device that drives and controls an alternating-current rotary electric machine, the rotary electric machine driving device including: an inverter that is electrically interposed between a direct-current power supply and the rotary electric machine, and converts electric power between a direct current and an alternating current; a smoothing capacitor that is electrically interposed between the direct-current power supply and the inverter, and is connected between a positive pole and a negative pole on a direct-current side of the inverter; and an inverter control unit that controls switching of a switching element of the inverter according to a predefined switching frequency. | 2015-12-17 |
20150365039 | VEHICLE COOLING-FAN MOTOR/INVERTER SYSTEM, CONTROL METHOD THEREFOR, AND PROGRAM THEREFOR - Included are: a motor control device that has a switching element, that converts DC power supplied from a high-voltage power supply into three-phase AC power, and that supplies the three-phase AC power to a three-phase motor; a first control portion that controls the motor control device; an isolated-type CAN driver that is activated by using power supplied from a low-voltage power supply and that exchanges information with a vehicle ECU that is mounted in the vehicle and that is superordinate to a vehicle cooling-fan motor/inverter system; and an isolation portion that electrically isolates a low-voltage system to which power is supplied from the low-voltage power supply from a high-voltage system to which power is supplied from the high-voltage power supply. If a fault in the switching element is detected, the first control portion outputs fault information notifying that there is a fault in control of the three-phase motor to the vehicle ECU via the isolated-type CAN driver. | 2015-12-17 |
20150365040 | Rotary Electric Machine Driving Device - A rotary electric machine driving device that drives and controls an alternating-current rotary electric machine, the rotary electric machine driving device including: an inverter that is electrically interposed between a direct-current power supply and the rotary electric machine, and converts electric power between a direct current and an alternating current; a smoothing capacitor that is electrically interposed between the direct-current power supply and the inverter, and is connected between a positive pole and a negative pole on a direct-current side of the inverter; and an inverter control unit that controls switching of a switching element of the inverter according to a predefined switching frequency. | 2015-12-17 |
20150365041 | MOTOR CONTROL SYSTEM AND INTERFACE - A motor control system is presented. The motor control system includes a motor controller and a motor driver. The motor controller and motor driver are coupled by an interface which includes a conductor configured to carry both a motor speed control signal from the motor controller to the motor driver and a motor feedback signal from the motor driver to the motor controller. The motor controller provides a motor speed control signal to the motor driver and the motor driver provides a motor feedback signal to the motor controller. | 2015-12-17 |
20150365042 | STORAGE TYPE SOLAR POWER GENERATION DEVICE AND STORAGE TYPE SOLAR POWER GENERATION SYSTEM - An electricity storing solar power generation device | 2015-12-17 |
20150365043 | BOWTIE NANOANTENNAS FOR EFFICIENT THERMOPHOTOVOLTAICS AND ENHANCED SENSITIVITY IR PHOTODETECTORS - A matching technique and the field enhancement at the terminals of a bowtie nanoantenna is presented to develop compact, highly efficient, and flexible thermophotovoltaic (TPV) cells. The bowtie antenna is designed for maximum power transfer to a near infrared band of a TPV cell. In one example, a small cube of indium gallium arsenside antimode or another suitable material with a low bandgap energy of 0.52 eV is mounted at the terminals of the antenna. Such a load presents a frequency dependent impedance with a high resistance and capacitance at the desired frequency (180 THz). For maximum power transfer, a high impedance bowtie antenna operating at the anti-resonance mode connected to an inductive transmission line to compensate for the load capacitance is realized. The same antenna and load configuration with the semiconductor material used in photoconductive mode is used to realize a sensitive uncooled photodetector. | 2015-12-17 |
20150365044 | Camming Clamp For Roof Seam - A clamp described herein can secure a solar cell array to a seam of a standing seam metal roof. The clamp has a cam that is rotated by the tightening of a bolt to cause the cam to engage the seam. The clamp also has a receiver for receiving the seam and the rotated cam. By installing the clamp on the seam, the solar cell array can be secured to the standing seam metal roof without drilling into the roof. Because no screws are required to be drilled into the rooftop, the damage to the rooftop is substantially reduced. Also, by reversing the process described above, the clamp can be uninstalled in a similar fashion. | 2015-12-17 |
20150365045 | SOLAR COLLECTOR ASSEMBLY - A solar collector assembly includes a lower structure portion configured to be affixed to/rest upon a foundation. An upper structure portion is configured to mount one or more solar element assemblies. A hinge assembly is configured to rotatably couple the upper structure portion to the lower structure portion. | 2015-12-17 |
20150365046 | SYSTEMS AND METHODS FOR APPLYING FLEXIBLE SOLAR PANELS TO FLEXIBLE UNDERLYING MEMBRANES - Systems and methods for applying flexible solar panels to flexible underlying membranes are disclosed. The embodiments disclosed herein involve systems and methods for applying flexible photovoltaic modules to flexible underlying membranes, including large and small span and permanent membrane structures. | 2015-12-17 |
20150365047 | Solar Module - Disclosed is a solar module, comprising a plurality of lamellar solar panels, which are mounted on a common axis so as to be able to pivot between a first position, in which they are positioned one on top of the other in a substantially coincident manner, and a second position, in which they are fanned out substantially adjacently, wherein, of every two adjacent solar panels, only the axis-side end section of the one solar panel has at least one guide and only the axis-side end section of the other solar panel has two stops which interact with the guide and are spaced from each other in the tangential direction, and wherein the solar panels are spaced from each other in the fanned out second position in their radially projecting sections that adjoin the aforementioned end sections. | 2015-12-17 |
20150365048 | RESILIENT MOUNTING ASSEMBLY FOR PHOTOVOLTAIC MODULES - An apparatus and system for flexibly mounting a power module to a photovoltaic (PV) module. In one embodiment, the apparatus comprises a plurality of distributed mounting points adapted to be adhered to a face of the PV module for mechanically coupling the power module to the PV module, wherein the plurality of distributed mounting points flexibly retain the power module such that the PV module is able to flex without subjecting the power module to stress from flexure of the PV module. | 2015-12-17 |
20150365049 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE AND MANUFACTURING METHOD OF ELECTRONIC DEVICE USING THE SAME - A semiconductor integrated circuit device having a function to perform oscillation in combination with a crystal oscillator, includes: a first impedance element including a first external terminal coupled to one terminal of the crystal oscillator, a second external terminal coupled to the other terminal of the crystal oscillator, and first and second terminals coupled to the first and second external terminals when the oscillation is performed; a first variable capacitance circuit coupled to the first terminal of the feedback impedance element, and a configuration circuit for setting a capacitance value of the first variable capacitance circuit. A measurement signal is supplied to the second terminal of the feedback impedance element, and in response to this, the capacitance value of the first variable capacitance circuit is set by the configuration circuit based on the delay time of an observation signal generated at the first terminal with respect to the measurement signal. | 2015-12-17 |
20150365050 | OSCILLATION CIRCUIT, OSCILLATOR, ELECTRONIC APPARATUS, AND MOVING OBJECT - An oscillation circuit includes a circuit for oscillation and a signal adjustment circuit connected to the circuit for oscillation. An input voltage based on a direct-current voltage, a voltage value of which can be changed, is input to the circuit for oscillation and the signal adjustment circuit. The circuit for oscillation causes a vibration piece to oscillate and outputs a first oscillation signal. A frequency of the first oscillation signal is adjusted according to the voltage value output from the signal adjustment circuit. | 2015-12-17 |
20150365051 | SYSTEM AND METHOD FOR LEAKAGE CURRENT CONTROL FOR PROGRAMMABLE GAIN AMPLIFIERS - A system that utilizes an amplified signal is disclosed that includes a plurality of first switches coupled to a plurality of first impedances. A plurality of second switches coupled to a plurality of second impedances. An amplifier having a first input coupled to the plurality of first switches and a second input coupled to the plurality of second switches. A leakage current offset source coupled to the first input of the amplifier, wherein the leakage current offset source cancels a leakage current component of a first current provided from the plurality of first switches to the first input. | 2015-12-17 |
20150365052 | RF-INPUT / RF-OUTPUT OUTPHASING AMPLIFIER - A power combining and outphasing system and related techniques for simultaneously providing both wide-bandwidth linear amplification and high average efficiency is described. Providing linear amplification encompasses the ability to dynamically control an RF output power level over a wide range while still operating over a wide frequency bandwidth. The system and techniques described herein also operate to maintain high efficiency across a wide range of output power levels, such that a high average efficiency can be achieved for highly modulated output waveforms. | 2015-12-17 |
20150365053 | ENVELOPE TRACKING MODULATOR WITH FEEDBACK - There is disclosed an envelope tracking modulated supply arranged to generate a modulated supply voltage in dependence on a reference signal, comprising a low frequency path for tracking low frequency variations in the reference signal and including a switched mode power supply, a correction path for tracking high frequency variations in the reference signal and including a linear amplifier, a feedback path from the output of the linear amplifier to the input of the linear amplifier, and a combiner for combining the output of the switched mode power supply and the output of the linear amplifier to generate a modulated supply voltage. | 2015-12-17 |
20150365054 | MULTI-BAND AMPLIFIER, METHOD FOR CONTROLLING THEREOF - A multi-band amplifier may include: a first amplifying unit connected to a first antenna stage; a second amplifying unit connected to a second antenna stage; and a switching control unit generating a control signal to activate at least one of the first and second amplifying units depending on a plurality of control voltages, wherein the first amplifying unit amplifies the signal within the first frequency band or provides the signal within the first frequency band to the first antenna stage by performing a switching operation depending on the control signal, and the second amplifying unit amplifies the signal within the second frequency band or provides the signal within the second frequency band to the second antenna stage by performing a switching operation depending on the control signal. | 2015-12-17 |
20150365055 | REDUCED-POWER DISSIPATION FOR CIRCUITS HANDLING DIFFERENTIAL OR PSEUDO-DIFFERENTIAL SIGNALS - In an example, a differential amplifier is disclosed that is configured to realize low noise with decreased overall system current. The differential amplifier may include a first amplifier stage and a second amplifier stage arranged in series, wherein a pull-up current i | 2015-12-17 |
20150365056 | DISTORTION COMPENSATION APPARATUS AND DISTORTION COMPENSATION METHOD - A distortion compensation apparatus includes a calculation unit that acquires, from calculation performed by using a factor and an output signal from the amplifier, a distortion component that is associated with the distortion generated in the amplifier, and a comparing unit that compares a signal that is obtained by giving the distortion component acquired by the calculation unit to an output signal output from the amplifier, with an input signal input to the amplifier, to which a distortion component is previously given. The calculation unit adjusts, on the basis of a comparison result obtained by the comparing unit, the factor that is used for the calculation. | 2015-12-17 |
20150365057 | APPARATUS AND METHODS FOR POWER AMPLIFIER OUTPUT MATCHING - Apparatus and methods for power amplifier output matching is provided. In certain configurations, an output matching circuit includes a supply voltage biasing circuit electrically connected between an input node and a power high supply voltage, a second-order harmonic series resonant circuit electrically connected between the input node and a power low supply voltage, a third-order harmonic parallel resonant circuit electrically connected between the input node and a harmonic frequency grounding node, a third-order harmonic series resonant circuit electrically connected between the harmonic frequency grounding node and the power low supply voltage, and a DC blocking capacitor electrically connected between the harmonic frequency grounding node and an output node. | 2015-12-17 |
20150365058 | POWER AMPLIFIER - A power amplifier is provided. The power amplifier comprises a plurality of power amplifier units and a bias unit. The power amplifier units are connected in parallel with each other to receive a differential input signal. The power amplifier units perform a power amplifying so as to output a differential output signal. The bias unit is coupled to the power amplifier units and supplies a plurality of bias signals to the power amplifier units respectively. At least two of the power amplifier units are enable to operate in different class regions in according with the corresponding bias signals. | 2015-12-17 |
20150365059 | CLASS-D AMPLIFIER AND ELECTRONIC APPARATUS - Disclosed is a class-D amplifier including a first output circuit, a first capacitor, a pulse width modulator, and a slew rate limiting amplifier. The first output circuit includes first and second switching devices that are connected in series between first and second power supply lines. The first capacitor is connected between the first and second power supply lines. The pulse width modulator generates a pulse width modulated switching signal based on a triangular wave and an audio signal, and provides the switching signal to the first output circuit. The slew rate limiting amplifier is connected to an input part of the pulse width modulator to which the audio signal is provided, and limits a slew rate of output. The sound-producing device is connected in series to an inductor connected to a first output node of the first output circuit. The sound-producing device and the inductor constitute an LC filter. | 2015-12-17 |
20150365060 | TRANSIMPEDANCE AMPLIFIER AND LIGHT RECEPTION CIRCUIT - A transimpedance amplifier includes a first current source, a second current source, an output amplifier, and a bias circuit. The first current source includes a first cascode circuit with two transistors. The second current source includes a second cascode circuit with two transistors. The output amplifier includes a first input terminal to which an output of the first cascode circuit is input and a first output terminal at which an output voltage corresponding to a photocurrent is output. The bias circuit is connected between the first and second current sources. The photocurrent at a phototerminal corresponds to a first current from the first current source subtracted from a sum of a second current from the second current source and a first feedback current from the output amplifier. | 2015-12-17 |
20150365061 | SYSTEM AND METHOD FOR MODIFYING AN AUDIO SIGNAL - A method and system for modifying an audio signal are provided. An audio subsystem can receive a control input signal including a predefined set of desired audio characteristics for an acoustic output of the audio subsystem. The audio subsystem can further receive an input audio electrical signal, and based on the control input signal, the audio subsystem can equalize, compress, limit and amplify the input audio electrical signal for output to at least one output device. | 2015-12-17 |
20150365062 | EM COUPLING SHIELDING - A method and an apparatus for canceling EM coupling are provided. The apparatus includes a ring structure at least partially surrounding an EM circuit. A negative transconductance circuit is coupled to ends of the ring structure. The negative transconductance circuit is configured to cancel an EM coupling to the EM circuit at a frequency. The method includes generating a plurality of settings for a negative transconductance circuit and tuning the negative transconductance circuit to one of the plurality of settings for the negative transconductance circuit to cancel an EM coupling to an EM circuit at a frequency. | 2015-12-17 |
20150365063 | LUMPED ELEMENT FREQUENCY SELECTIVE LIMITERS - A lumped element frequency selective limiter device and corresponding method for the design is provided, including a variety of LE-FSL device structures and systems. The devices can utilize ferrite-based materials in a lumped element inductor operable at and above 1 GHz. The methods and systems can utilize devices having cascaded configurations of lumped elements to improve operating performance the devices. | 2015-12-17 |
20150365064 | VARIABLE DELAY LINE USING VARIABLE CAPACITORS IN A MAXIMALLY FLAT TIME DELAY FILTER - Systems and methods for a variable delay line using variable capacitors in a time delay filter are provided. In at least one embodiment, a delay line is configured to apply an adjustable time delay to an electromagnetic signal travelling through the delay line. The delay line comprises a filter that includes a first variable capacitor. Further, a capacitance of the first variable capacitor is configured to adjust the delay applied to the electromagnetic signal travelling through the delay line when varied. | 2015-12-17 |
20150365065 | CONTROL DEVICE, AUTOMATIC MATCHING METHOD FOR ANTENNAS, AND WIRELESS DEVICE - A control device includes a power detector that detects a power of a signal transmitted by an antenna, a transmitting power of the signal fluctuating due to transmit power control; and a controller that adjusts a setting value of a variable matching circuit in such a way that the power increases based on a result of comparison of a reference value with a detected power of the power detector, that detects fluctuation in the transmitting power based on a temporal change in the detected power, and that corrects the reference value based on the fluctuation in the transmitting power. | 2015-12-17 |
20150365066 | POWER TRANSMISSION SYSTEM, TRANSMISSION APPARATUS, RECEIVING APPARATUS, AND POWER TRANSMISSION METHOD - A transmission apparatus transmits electric power via a medium that is present between the transmission apparatus and a receiving apparatus. The transmission apparatus includes: an antenna; and a power transmission circuit that outputs electric power via the antenna of the transmission apparatus, the electric power having a first resonance frequency determined by an impedance of the medium, an impedance of the antenna of the transmission apparatus, and an impedance of an antenna of the receiving apparatus. | 2015-12-17 |
20150365067 | Composite Substrates for Acoustic Wave Elements, and Acoustic Wave Elements - A composite substrate for an acoustic wave element includes a support substrate | 2015-12-17 |
20150365068 | QUARTZ VIBRATING DEVICE - A quartz vibrating device that includes a quartz vibrator supported upon a case board in a cantilever state. The quartz vibrator is electrically connected to first and second mount electrodes by first and second conductive adhesive layers. A total S (mm | 2015-12-17 |
20150365069 | Reactance Filter Comprising Acoustic Waves Resonators - A reactance filter includes a series branch that includes a number of series impedance elements that are coupled in series and a number of parallel branches each having a parallel impedance element coupled to a respective node of the series branch. Each impedance element includes a resonator that works with acoustic waves. The resonators in the series branch include a first piezoelectric material and the resonators in the parallel branches include a second piezoelectric material that is different than the first piezoelectric material. | 2015-12-17 |
20150365070 | SEMICONDUCTOR DEVICE - In some aspects of the invention, provided is a semiconductor device capable of compensating sufficiently instantaneous drop of power source voltage without enlarging device scale extremely. When digital circuit and power device driving circuit are formed on chip in the state connected to power source in common in parallel, for digital circuit of functional circuit remaining abnormal state after power source recovery and analog circuit and power device driving circuit of functional circuit retaining continuously normal state even before power source recovery, resistors are formed on chip in power source E side of the functional circuits, and in addition, capacitors are formed on chip | 2015-12-17 |
20150365071 | CAPACITANCE PHASE INTERPOLATION CIRCUIT AND METHOD THEREOF, AND MULTI-PHASE GENERATOR APPLYING THE SAME - A capacitance phase interpolation circuit including a first capacitance phase interpolation unit and a second capacitance phase interpolation unit is disclosed. The first capacitance phase interpolation unit includes a first capacitance group, wherein a plurality of capacitors in the first capacitance group are in a ring coupling, and the first capacitance phase interpolation unit receives a plurality of reference clock signals. The second capacitance phase interpolation unit is coupled to the first capacitance phase interpolation unit and includes a second capacitance group, wherein a plurality of capacitors in the second capacitance group are in a ring coupling, and each of the output clock signals is obtained via the first capacitance phase interpolation unit and the second capacitance phase interpolation unit by performing phase interpolation on all the reference clock signals. | 2015-12-17 |
20150365072 | SYSTEMS AND METHODS FOR EXTENDING FREQUENCY RESPONSE OF RESONANT TRANSDUCERS - Certain implementations of the disclosed technology may include systems and methods for extending a frequency response of a transducer. A method is provided that can include receiving a measurement signal from a transducer, wherein the measurement signal includes distortion due to a resonant frequency of the transducer. The method includes applying a complementary filter to the measurement signal to produce a compensated signal, wherein applying the complementary filter reduces the distortion to less than about +/−1 dB for frequencies ranging from about zero to about 60% or greater of the resonant frequency. The method further includes outputting the compensated signal. | 2015-12-17 |