01st week of 2016 patent applcation highlights part 64 |
Patent application number | Title | Published |
20160006311 | ELECTRIC MOTOR, GENERATOR AND COMMUTATOR SYSTEM, DEVICE AND METHOD - A direct current (DC) electric motor assembly with a closed type overlap stator winding which is commutated with a timed commutating sequence that is capable of generating a stator rotating magnetic field. The coil overlap of the winding and a timed commutation sequence are such that the current in each slot of the stator is additive and when a previous magnetic pole collapses according to a commutation sequence; the energy released by that previous collapsing magnetic field is captured to strengthen the next magnetic field on the commutation sequence schedule. Electrical currents produced by the collapsing magnetic fields flow to low electric potential and add or subtract to the DC current provided by the commutator thus promoting formation of the next magnetic on commutation schedule. When used with a suitable commutator and rotor, the electric motor assembly provides a true brushless high torque speed controlled Real Direct Current (RDC) motor that operates with higher efficiency and higher power density. | 2016-01-07 |
20160006312 | NEUTRAL POINT OF A GENERATOR - An electrodynamic machine includes a housing and a rotor, as well as a neutral point, wherein the neutral point is located inside the housing and the neutral point ends are interconnected by means of shorting bridges, and the shorting bridges are designed such that the neutral point ends inside the generator housing are electrically isolated from each other. | 2016-01-07 |
20160006313 | STATOR FOR ROTARY ELECTRIC MACHINE - The stator includes a stator core, a plurality of phase windings, a neutral line and a fixing member. The plurality of phase windings are wounded a plurality of times by a predetermined winding method crossing between a plurality of slots. One lead end of each phase winding is supplied with a phase current. The other lead end of each phase winding is a neutral point connecting portion. The other lead end is pulled out from an axially end portion of the stator core. The neutral line connects the neutral point connecting portions of the phase windings of different phases together. The neutral line is separate from the phase windings. The fixing member fixes the neutral line to a yoke portion via an intermediate member. The intermediate member is made of resin. | 2016-01-07 |
20160006314 | STATOR FOR ROTARY ELECTRIC MACHINE - A stator includes a stator core, a plurality of phase windings, a neutral line and a fixing portion. The plurality of phase windings is wounded a plurality of times by a predetermined winding method crossing between a plurality of slots. One lead end of each phase winding is a neutral point connecting portion, and the one lead end is pulled out from an axially end portion of the stator core. The neutral line connects the neutral point connecting portions of the phase windings of different phases together. The neutral line is separate from the phase windings. The fixing portion fixes a first phase winding that is connected to the neutral line. A second phase winding is adjacent to the first phase winding together. | 2016-01-07 |
20160006315 | Electromechanical Drive Device - An electromechanical drive device having a housing ( | 2016-01-07 |
20160006316 | RADIALLY OFFSET MOTOR CONTROL HOUSING - A motor comprising a rotor, a stator, a motor shell, a pair of motor endshields, and a controller housing is provided. The rotor is rotatable about an axis. The stator presents opposite axial ends. The motor shell extends around the axis to at least partly circumscribe the rotor and stator. Each motor endshield is positioned adjacent a respective one of the stator ends and provides support for the rotor. The fastener extends through and interconnects the stator and endshields. The controller housing defines an electronics compartment positioned radially outside the motor shell. The controller housing includes a connector that receives the fastener so as to fix the controller housing to the stator and endshields. | 2016-01-07 |
20160006317 | LINEAR GENERATOR AND LINEAR DRIVE - Device for the reversible transfer of linear motion into rotational motion and for the conversion of rotational motion into electrical energy and vice versa. The device comprises a central rail and a support element which surrounds the central rail or is being surrounded by the central rail, the support element being positioned so as to be capable of performing a linear motion relative to the central rail in the longitudinal direction of the central rail. A number of rolling bodies which are in contact with the central rail are rotationally mounted in the support element. The rolling bodies rotate during the linear motion of the support element relative to the central rail in conjunction with the central rail. The linear motion is also connected to the drive or output of an electric machine. The elastically preloaded rolling bodies are arranged so that the central rail is essentially mounted with zero clearance under pressure, whereby the preload forces cancel each other out and are produced by elastically deformed retaining brackets on the support element. The rotations of at least one rolling body form the drive or output of the electric machine. | 2016-01-07 |
20160006318 | Electric Motor Connections for Power Tools - In at least one illustrative embodiment, a power tool may comprise an electric motor comprising a rotor configured to rotate about an axis, a stator assembly including at least three windings arranged around the rotor, and at least three lugs affixed to the stator assembly, where each of the lugs is electrically coupled to one or more of the windings. The lugs may all be arranged to one side of a plane that passes through the axis. The power tool may further comprise at least three electrical wires, where each of the electrical wires is removably coupled to one of the lugs, and a control circuit configured to supply electrical power to the windings, via the electrical wires and the lugs, to drive rotation of the rotor about the axis. | 2016-01-07 |
20160006319 | TURBINE GENERATOR POWERED BY ROAD EMBEDDED ROLLER - A system and method generates electric power by utilizing the kinetic energy of vehicles travelling over a road way. Embodiments include a roller embedded in the road way that is at least partially exposed and disposed to receive vehicle traffic so that vehicles spin the roller which in response provides output torque to a turbine generator that produces electricity for output to a power grid. | 2016-01-07 |
20160006320 | Pendulum Type Energy-Saving Power Generation Device - The present invention relates to a pendulum type energy-saving power generation device, which has a structure that includes a pendulum device, a push-assisting device applying a force to maintain continuous swing of the pendulum device, and an electrical power system that stores the energy converted by the pendulum device and supplies electrical energy required for an operation of the push-assisting device. With the above-described structure, through a swing operation of the pendulum device, the energy generated by the operation is converted into necessary electrical energy that is stored in the electrical power system, with a fraction of the electrical energy being supplied to the push-assisting device to timely provide an assisting push to the pendulum device when the swing of the pendulum device is reduced by friction so as to maintain a continuous operation thereof to continuously generate electrical energy. | 2016-01-07 |
20160006321 | ARRANGEMENT OF AN ELECTRIC MACHINE AND OF A TRANSMISSION CONNECTED DOWNSTREAM THEREOF - An arrangement ( | 2016-01-07 |
20160006322 | ELECTRICAL MACHINE - A rotary electrical machine incorporating an electronic module that includes a printed circuit mounted with a plurality of surface mounted electronic components and a plurality of pin-through-hole electronic components; the electrical machine includes a dissipator for dispersing the heat generated by the electronic module; the surface mounted electronic components and the pin-through-hole electronic components are mounted between the printed circuit and the dissipator; the electronic module also includes a transferring element, also mounted between the printed circuit and the dissipator, in thermal contact with at least one of the surface mounted electronic components; the transferring element is designed to disperse the heat generated by the surface mounted electronic components towards the dissipator with the aid of a thermally conductive and electrically isolating filler material inserted between the transferring element and the dissipator. | 2016-01-07 |
20160006323 | ASSEMBLY COMPRISING AT LEAST A FIRST MOTOR, A SECOND MOTOR AND AN ANGULAR POSITION SENSOR - An assembly includes at least a first motor ( | 2016-01-07 |
20160006324 | ROTARY ELECTRIC MACHINE HAVING INTEGRATED DRIVE CONTROL DEVICE - In a rotary electric machine having an integrated drive control device, a motor housing joined to a mounting housing, which is a cast member, is made of a steel material. Therefore, an outer diameter is reduced and strength for retaining a stator core is satisfactorily ensured even under high-temperature environments. | 2016-01-07 |
20160006325 | ELECTRIC MACHINE, IN PARTICULAR AN ENGINE - An electric machine, in particular an engine, has a housing with a bearing shield, a drive shaft, a fan which is coupled to the drive shaft, and a converter. The converter is arranged between the fan and the bearing shield. | 2016-01-07 |
20160006326 | VERTICAL POWER TOOL - Provided is a vertical power tool superior in assembling performance. The vertical power tool is provided with a power cord, and has body housings | 2016-01-07 |
20160006327 | ROTOR OF MOTOR WHICH USES MAGNETS | 2016-01-07 |
20160006328 | Method of Manufacturing Wound Stator for Alternating-Current Generator - The present invention relates to a method of manufacturing a wound stator. The method promises the following steps: (1) providing a stator, which has a plurality of radial grooves arranged at an inner circumference of the stator, (2) providing a plurality of wires for the stator, and (3) sequentially embedding the straight portions of each wire in corresponding grooves of the stator so that each of the grooves is embedded with the wires. Each of the plurality of wire comprises: a first end, a second end, and a plurality of wave-shaped coils located between the first end and second end. Each wave-shaped coil is formed of straight portions and curved portions that alternate with each other. | 2016-01-07 |
20160006329 | Method And Device For Torque Generation Based On Electromagnetic Effect - A method and device of torque generation based on electromagnetic effect is provided. An electromagnetic torque whose direction is opposite to the motor driving direction is generated in a magnetic field when a motor-drive armature winding is adopted based on the electro-magnetic induction principle. Meanwhile, a reverse electromagnetic torque which is reverse to the armature winding with the same magnitude, is applied on a magnet set and is transmitted to an underactuated system so as to provide required torque for the underactuated system. Advantageously, the provided torque is in direct ratio to speed, difficulty in control is significantly reduced, two-stage electromagnetic variable speed can be achieved, the design of the system is simple and reliable with a concise and clear structure, and the device may be employed in a wide variety of applications. | 2016-01-07 |
20160006330 | ACTUATOR - An actuator ( | 2016-01-07 |
20160006331 | LINEAR COMPRESSOR AND LINEAR MOTOR - A linear compressor and a linear motor are provided. The linear motor may include a first stator, a second stator spaced apart from the first stator, and a permanent magnet disposed to be movable in a first direction between the first and second stators. The first stator may include a bobbin with a coil wound thereon, and a stator core that surrounds the bobbin. The stator core may be located between the second stator and the coil and may include first and second magnetic poles spaced apart from each other. One portion or entire portions of each of the first and second magnetic poles may have a constant magnetic path width within a range of a movement trajectory of the permanent magnet. | 2016-01-07 |
20160006332 | RECIPROCATING DEVICE FOR ELECTRIC HAIR CUTTER - A reciprocating device used for electric hair cutter includes a housing, a magnetism transmitting unit, a coil unit, a reciprocating unit, a pivotal unit and a stationary magnet unit. After the coil unit is fitted to the magnetism transmitting unit, the former is partially surrounded by the latter. Through the pivotal unit, the reciprocating unit is pivotally fitted to the reciprocating device near the latter's rear or front end. The front or rear portion of the reciprocating unit passes through the magnetism transmitting unit. The other end of the reciprocating unit passes through the stationary magnet unit. In this manner, a portion of the reciprocating unit is housed or enclosed in the magnetism transmitting unit, allowing a reduction in the size of the prior art reciprocating device and hence the electric hair cutter in the prior art. | 2016-01-07 |
20160006333 | LINEAR ACTUATOR - A linear actuator for an active engine mount of a vehicle has a stator with a coil that can be fed with electric current for generating an electromagnetic field and an actuating element that is mounted in axially movable fashion with reference to the stator. The actuating element comprises an armature and a ram extending in axial direction and is so mounted in the stator by means of at least one spring element that it can be moved axially in frictionless fashion when the coil is fed with current. The actuating element comprises a support element of a non-magnetic light-weight construction material extending in radial direction between the armature and the ram. Advantageously, the armature is provided only in such regions where there run magnetically relevant field lines of the electromagnetic field of the coil. | 2016-01-07 |
20160006334 | SEALESS, LIQUID COOLED EDDY CURRENT ENERGY ABSORPTION SYSTEM - The disclosed apparatus relates to a non-frictional, rotational, continuous energy absorbing device utilizing internal liquid cooling and having no dynamic seals. The apparatus is comprised of a rotor assembly containing magnets, cooling chambers containing magnetically driven impellers, actuators to adjust the axial positioning of said chambers, and other variations of the apparatus including an air-cooled design and additional friction braking. Braking torque is generated through shearing of eddy currents as the cooling chambers are moved axially closer to the rotor by actuators. The same action also drives magnetically driven impellers, resulting in coolant flow. Braking energy absorption increases as does coolant flow as the distance between the cooling chambers and the rotor is decreased. As the distanced between the rotor and cooling chambers increase, both energy absorption and coolant flow decrease to zero. The coolant flows from the cooling chambers to a heat exchanger to dissipate the energy. | 2016-01-07 |
20160006335 | MAGNETIC GEAR DEVICE - Provided is a magnetic gear device capable of improving the forces transmitted between a first magnet row and a magnetic body row and between a second magnet row and the magnetic body row. | 2016-01-07 |
20160006336 | DC TO DC CONVERTER AND PWM CONTROLLER WITH ADAPTIVE COMPENSATION CIRCUIT - DC to DC converters and PWM controllers are presented in which a slope compensation ramp signal is provided for current control operation via a frequency adaptive compensation circuit with a phase locked loop that provides a control output signal having an amplitude generally proportional to the frequency of a clock signal, and a slope generator circuit generating the slope compensation ramp signal with an amplitude generally proportional to the control output signal amplitude. | 2016-01-07 |
20160006337 | SWITCH CONTROLLER WITH VALIDATION CIRCUIT FOR IMPROVED NOISE IMMUNITY - A switch controller includes a primary side including signal transmission circuitry to transmit signals representative of desired transitions of a switch. A signal transformer galvanically isolates the primary side from a secondary side but inductively couples signal transmission circuitry to signal reception circuitry. A switch is coupled to switch a low impedance onto a primary side winding of the signal transformer during pauses between transmissions of the signals representative of the desired transition of the switch. The secondary side includes signal reception circuitry, a drive signal generator to generate a drive signal in response to valid signals received by the signal reception circuitry, and a validation circuit that includes a first comparator, a timer, and a second comparator to compare a timed duration with a threshold duration, and to output to the drive signal generator signals indicative of the validity of particular signals received by the signal reception circuitry. | 2016-01-07 |
20160006338 | GRID-INTERCONNECTED POWER CONVERTER - A power converter that includes: a power conversion unit; and a control unit configured to control the power conversion unit such that the power conversion unit operates as a virtual synchronous generator. The control unit includes: an AVR model unit; a governor and driving source model unit; a power generation torque arithmetic operation unit; a rotation angle arithmetic operation unit; a voltage d-q conversion unit; and a generator model unit configured to perform arithmetic operation. | 2016-01-07 |
20160006339 | SUPPLY VOLTAGE GENERATING CIRCUIT AND SWITCHING POWER SUPPLY - The present disclosure relates to a supply voltage generating circuit and a switching power supply having the circuit. The supply voltage generating circuit provides a supply voltage for a power terminal of a control circuit in the switching power supply. The supply voltage generating circuit includes a switching circuit, a unidirectional conduction circuit and an energy storage circuit. In a time period during which a main power transistor is turned off, the switching circuit is turned off and a rectifying device provides a current to the energy storage circuit through the unidirectional conduction circuit, in a case that the supply voltage is smaller than a predetermined voltage reference; and the switching circuit is turned on and the current output from the rectifying device flows to the switching circuit, in a case that the supply voltage is larger than or equal to the predetermined voltage reference. When the supply voltage generating circuit is used in a switching power supply, the control circuit has improved controllability for supplying electric energy, and the switching power supply has an increased integration level and a simplified circuit structure, and will not be adversely influenced by resonance. | 2016-01-07 |
20160006340 | CONTROL CIRCUIT AND ASSOCIATED METHOD FOR SWITCHING CONVERTER - A control circuit for switching converter has an ON signal generating circuit, a current sensing circuit, an OFF signal generating circuit, a logic circuit and an OFF threshold generating circuit. The ON signal generating circuit provides an ON signal based on a reference signal and a feedback signal. The current sensing circuit provides a current sensing signal based on a current flowing through a power switch of the converter. The OFF signal generating circuit provides an OFF signal based on an OFF threshold signal and the current sensing signal. The logic circuit provides a control signal based on the ON signal and the OFF signal. The OFF threshold generating circuit adjusts the OFF threshold signal based on the difference between a frequency of the switching signal and a preset frequency, so as to make the frequency of the switching signal substantially equal or larger than the preset frequency. | 2016-01-07 |
20160006341 | TRAILING EDGE DETECTOR USING CURRENT COLLAPSE - A controller for a power converter compares a voltage sense signal to a first reference and compares a current sense signal to a current sense signal. The voltage sense signal is representative of an input voltage of the power converter. The current sense signal is representative of a current through the power converter. A slope of the voltage sense signal is measured over time. An edge detection is asserted by the controller when (1) the voltage sense signal is larger than the first reference, (2) the current sense signal is lower than the second reference, and (3) the slope is a negative slope. | 2016-01-07 |
20160006342 | CONTROL CIRCUIT AND MOTOR DEVICE - A control circuit includes: an input terminal for receiving an input AC voltage; a voltage decreasing unit for decreasing the input AC voltage; an A-D converter for converting the decreasing AC voltage to a DC voltage; a driving unit for receiving the DC voltage and to driving a motor, a detecting unit for detecting the DC voltage; and a current shunt unit configured to be conductive to lower the DC voltage at the output terminal of the A-D converter to a voltage which is less than a threshold voltage when the detecting signal indicates that the detected DC voltage exceeds the threshold value. A motor device includes the control circuit and a motor. | 2016-01-07 |
20160006343 | POWER SUPPLY STARTUP SYSTEM - A power supply startup system activates a power supply of a device provided with a battery or the like at high speed by a wireless signal while suppressing current consumption on standby. The power supply startup system includes a battery, a device supplied with a power from the battery, and a controller which performs wireless communication with the device. The device includes a power supply section which generates a power supply from the battery, a startup section which receives a wireless startup signal transmitted by the controller and outputs a startup signal to the power supply section, a control section which controls the power supply section and the startup section, and a wireless communication section which performs wireless communication with the controller. The wireless startup signal includes at least two signal regions of a first stage and a second stage. | 2016-01-07 |
20160006344 | SWITCHING POWER SUPPLY CIRCUIT AND CONTROL METHOD THEREFOR - A switching power supply circuit includes a switching element connected to a primary winding wire of a transformer in series, capacitors connected to secondary winding wires of the transformer via diodes, and an IC for power supply control that controls ON/OFF operation of the switching element on the basis of a charged voltage of the capacitors. Commanded voltages are charged in the capacitors after electric power is supplied to a main power supply, and further, after the elapse of a delay time set in advance, a control circuit, which controls the entire apparatus, controls a main circuit and a peripheral apparatus circuit to start operations. | 2016-01-07 |
20160006345 | MATRIX CONVERTOR, POWER GENERATION SYSTEM, AND METHOD FOR CONTROLLING POWER FACTOR - A matrix convertor includes a power convertor and a controller. The power convertor is disposed between a power system and a rotating electric machine, and includes a plurality of bidirectional switches. The controller is configured to control an exciting current flowing from the power convertor to the rotating electric machine so as to control a power factor on a side of the power system. | 2016-01-07 |
20160006346 | POWER SUPPLY DEVICE, ON-BOARD POWER SUPPLY DEVICE, AND ELECTRIC AUTOMOBILE - A power supply apparatus includes: a power supply circuit; and a control section, the power supply circuit including a power factor improvement circuit that improves a power factor of alternating-current electrical energy by switching of a transistor; and a DC/DC conversion apparatus that converts by switching of a transistor at least one of a voltage and a current of the electrical energy whose power factor is improved by the power factor improvement circuit, the control section being configured to control switching timings of the power factor improvement circuit and the DC/DC conversion apparatus, wherein the number of the power supply circuit is N, and the control section controls the switching timings such that the switching timing of the power factor improvement circuit differs among the N power supply circuits, and that the switching timing of the DC/DC conversion apparatus differs among the N power supply circuits. | 2016-01-07 |
20160006347 | POWER SUPPLY APPARATUS, CONTROL APPARATUS, AND PROGRAM THEREFOR - A power supply apparatus includes: an inductor to which an input voltage is applied; a switching element that switches a current flowing to the inductor on and off so as to cause an induced voltage to be generated; an electrolytic capacitor that smoothes the induced voltage and outputs the voltage to a load; and a control circuit that controls the switching element, wherein the control circuit outputs a second switching control signal obtained by superimposing a degradation detection-purpose signal for detecting degradation of the electrolytic capacitor on a first control signal, detects an output voltage output by switching performed by the switching element controlled by the second control signal, and estimates the degradation of the electrolytic capacitor by using the output voltage detected, a duty cycle of the first control signal, and a frequency component of the degradation detection-purpose signal contained in the output voltage detected. | 2016-01-07 |
20160006348 | CHARGE PUMP APPARATUS - The invention provides a charge pump apparatus including a clock signal generator, a clock freezing circuit, a charge pump circuit, and a feedback circuit. The clock signal generator generates a clock signal. The clock freezing circuit directly receives the clock signal and an enable signal. The clock freezing circuit decides whether to pass or latch a voltage level of the clock signal according to the enable signal to generate a controlled clock signal. The charge pump circuit directly receives the controlled clock signal and operates a charge pump operation on an input voltage to generate a pumping voltage. | 2016-01-07 |
20160006349 | FOUR-PHASE CHARGE PUMP CIRCUIT - A four-phase charge pump circuit including an output stage and multiple boosting stages is provided. The multiple boosting stages are coupled to the output stage in series, and each of the multiple boosting stages is driven by four-phase clock signals. The output stage is driven by two clock signals of the four-phase clock signals and outputs a positive boosted voltage, and thereby the four-phase charge pump circuit is a positive charge pump circuit. Each of the boosting stages includes two branch charge pumps, and each of the two branch charge pumps includes a main pass transistor and a pre-charge transistor. The main pass transistors and the pre-charge transistors of the boosting stages are disposed on an identical deep doped region. | 2016-01-07 |
20160006350 | TECHNIQUES FOR REDUCING SWITCHING NOISE AND IMPROVING TRANSIENT RESPONSE IN VOLTAGE REGULATORS - Methods and apparatus relating to reducing switching noise and improving transient response in voltage regulators are described. In an embodiment, one or more pulses are inserted into an output waveform of a voltage regulator. The one or more pulses introduce multiple frequencies into the output waveform of the voltage regulator (e.g., to reduce acoustic noise). In another embodiment, the output voltage of a voltage regulator is modified in response to comparison of the output voltage with at least one of a plurality of threshold values. The plurality of threshold values includes an upper trigger point voltage value and a lower trigger point voltage value. Other embodiments are also disclosed and claimed. | 2016-01-07 |
20160006351 | Modularly Redundant DC-DC Power Supply Arrangement Having Outputs That Can Be Connected In Parallel - A power supply device for redundantly supplying power to a load comprises a first supply unit, a second supply unit, a first DC-DC converter, a second DC-DC converter, a first output switching controller, and a second output switching controller. The first and second supply units are interconnected. The first output switching controller is connected on the load side of the first DC-DC converter, and the second output switching controller is connected on the load side of the second DC-DC converter. The outputs of the output switching controllers are interconnected. | 2016-01-07 |
20160006352 | CONTROL CIRCUIT, SWITCHING POWER SUPPLY AND CONTROL METHOD - A control circuit configured to control a switch-type converter, can include: (i) a state detect circuit configured to generate an error amplifying signal according to a feedback voltage and a reference voltage, to compensate the error amplifying signal by a ramp compensation signal having a predetermined frequency, and to generate a state signal by comparing the compensated error amplifying signal against a voltage ripple signal, where the voltage ripple signal changes along with an inductor current of the switch-type converter; and (ii) a control signal generator configured to generate control signals to control the switch-type converter according to the state signal. | 2016-01-07 |
20160006353 | Switching Converter with an Adjustable Transistor Component - A switching converter includes a transistor arrangement having a plurality of n transistors, with n≧2, each including a gate terminal, and a load path between a source and a drain terminal, and at least m, with m≦n and m≧1 of the n transistors having a control terminal. The control terminal of each of the m transistors is configured to receive a control signal that adjusts an activation state of the transistor. The load paths of the plurality of n transistors are connected in parallel to form a load path of the transistor arrangement. A drive circuit is configured to adjust the activation state of the m transistors. | 2016-01-07 |
20160006354 | SWITCHING POWER SUPPLY CIRCUIT - A switching power supply circuit includes: a voltage generation circuit that generates an output voltage by smoothing, with a capacitor, a voltage produced in an inductor; an integration circuit that integrates a switching voltage to generate a first ripple voltage including a first ripple component; a feedback voltage generation circuit that divides the output voltage to generate a feedback voltage; a comparison circuit that compares the feedback voltage with a reference voltage to output the result of the comparison as a comparison result signal; an integration circuit that integrates the comparison result signal to generate a second ripple voltage including a second ripple component; and a drive circuit that controls the turning on and off of a switch element based on the comparison result signal, where the first ripple component and the second ripple component are added to the feedback voltage. | 2016-01-07 |
20160006355 | SWITCHED MODE DRIVE CIRCUIT - A switched mode drive circuit | 2016-01-07 |
20160006356 | WIRELESS POWER TRANSFER SYSTEMS USING LOAD FEEDBACK - A system includes an AC input port configured to be coupled to an AC power source, a first AC/DC converter circuit having a first port coupled to the AC input port, and a first resonant circuit coupled to the first port of the first AC/DC converter circuit. The system further includes a second resonant circuit inductively coupled to the first resonant circuit, a second AC/DC converter circuit coupled to the second resonant circuit and a control circuit configured to control the first AC/DC converter circuit responsive to an output of the second AC/DC converter circuit. | 2016-01-07 |
20160006357 | POWER CONVERSION APPARATUS - A power conversion apparatus, which converts power of a DC power supply and provides it to the loading, includes a transformer, an electronic switch, a leakage energy recycling circuit, and a output circuit. The transformer has a primary winding, which receives the power, and a secondary winding, which outputs the converted power. An end of the electronic switch is electrically connected to the primary winding; another end thereof is electrically connected to the DC power supply. The leakage energy recycling circuit is electrically connected to the primary winding, and repeatedly and alternatively outputs power of positive and negative voltage. The circuit receives and stores leakage energy of the transformer, and feedbacks it to the transformer. The output circuit is electrically connected to the secondary winding to receive the converted power and to provide it to the loading. | 2016-01-07 |
20160006358 | CONTROL CIRCUIT - A control circuit is adapted for controlling a converter. The converter includes a transformer and a power switch. The control circuit includes a current sensing unit, a current emulating unit, and a control unit. The current sensing unit senses a current flowing through the power switch coupled to a primary winding of the transformer. The current emulating unit determines a propagation delay period according to a voltage transient time of an auxiliary winding of the transformer and a turn-off time of the power switch, and retrieves several sampling times in a conduction period of the power switch according to the propagation delay period. The current emulating unit obtains a peak current and a valley current according to the sampling voltages corresponding to the sampling times. The control unit generates a control signal configured to control the power switch according to the peak current and the valley current. | 2016-01-07 |
20160006359 | DC-DC CONVERTER WITH A PROTECTION STAGE - The invention relates to a DC to DC converter which comprises: (a) regulation stage for receiving a non-regulated DC voltage and for producing a regulated DC voltage; (b) a switching stage for converting said regulated DC voltage to a substantially AC Voltage signal; (e) an isolation stage for receiving said AC Voltage signal, and for producing a regulated output DC voltage having a voltage level which differs from a voltage level of said regulated DC voltage, and for isolating said regulated output DC voltage from said regulation stage; and (d) a control component for providing a feedback from said isolation to said regulation stage; wherein said DC to DC converter comprises at the regulation stage a protection unit which in turn comprises a capacitor in series with a parallel circuit which in turn comprises: a switching element in parallel with a resistor, inductor, or a controlled current limiting element. | 2016-01-07 |
20160006360 | POWER SUPPLY DEVICE - A power supply device according to the present invention includes: a filter capacitor coupled to a line to which an input voltage that is passed through a dimmer is supplied; a discharge switch coupled to the filter capacitor through the line; and a main switch receiving the input voltage and controlling power transmission. The power supply device performs input voltage control for shaping the input voltage with a predetermined pattern using the discharge switch. | 2016-01-07 |
20160006361 | MULTI-OUTPUT POWER SUPPLY APPARATUS AND OUTPUT CIRCUIT THEREOF - A multi-output power supply apparatus may include a transformer unit transforming a voltage level of input power using a primary winding and first and second secondary windings, a first output unit stabilizing power applied to the first secondary winding using a voltage multiplier circuit and outputting first power, and a second output unit stabilizing power applied to the second secondary winding and outputting second power. | 2016-01-07 |
20160006362 | Non-isolated AC to DC power device having gain stabilization - An AC to DC power supply is provided based on feed back control of an analog current blocking (ACB) device. The ACB element receives rectified high voltage AC. The output of the ACB element is provided to an integrating circuit that provides an output DC voltage. The output DC voltage depends on the average current passed by the ACB element. The average current passed by the ACB element depends on the current limit of the ACB element, which is under feed back control. Gain stabilization can be employed to accommodate a wide range of input voltages (e.g., for worldwide use). | 2016-01-07 |
20160006363 | CHOPPED ELECTRICAL ENERGY CONVERTER - A chopped current input electrical energy converter includes at least one conversion module (K | 2016-01-07 |
20160006364 | SYSTEM AND METHOD FOR CONTROLLING PCS VOLTAGE AND FREQUENCY - The present invention discloses a system and a method for controlling PCS voltage and frequency, wherein the system comprises a reference voltage converter, a phase-locked loop, a grid-side voltage converter, a voltage transformer, a first proportional integral controller, a second proportional integral controller, a coordinate converter and a SVPWM generator; a reference voltage converter is connected to an output terminal of a the phase-locked loop, and the output terminal of the phase-locked loop is further connected to a grid-side voltage converter; the grid-side voltage converter is connected to a high-voltage side of an isolating transformer of the electric grid via the voltage transformer; two output terminals of the grid-side voltage converter are respectively connected to the coordinate converter via two proportional integral controllers; an output terminal of the coordinate converter is connected to the SVPWM generator; an output terminal of the SVPWM generator is connected to a power switch of the electric grid. A PWM control signal for controlling the power switch of the electric grid is generated by the reference voltage converter, the phase-locked loop, the grid-side voltage converter, the voltage transformer, the two proportional integral controllers, the coordinate converter and the SVPWM generator. The system and method for controlling PCS voltage and frequency according to the invention have the advantages that the PCS can realize voltage and frequency buildup in an off-grid state and can stably output an expected voltage and frequency. | 2016-01-07 |
20160006365 | High-Frequency, High Density Power Factor Correction Conversion For Universal Input Grid Interface - A circuit includes a reconfigurable rectifier, a voltage balancer, and a pair of converters. The reconfigurable rectifier includes an ac input port and three output ports. In a first configuration, the reconfigurable rectifier can deliver power at a first output port and, in a second configuration, to at least a second output port. The voltage balancer includes first and second ports coupled to second and third output ports of the reconfigurable rectifier and is configured to balance received voltage at the first and second ports. The first converter has an input coupled to the first port of the voltage balancer and an output at which a first converted voltage signal is provided. The second converter has an input coupled to the second port of the voltage balancer and an output at which a second converted voltage signal is provided. | 2016-01-07 |
20160006366 | INVERTER AND OPERATING METHOD FOR AN INVERTER - A method for operating an inverter which is connected to an energy supply grid via a transformer for feeding in electrical energy into the energy supply grid, includes measuring output currents and output voltages of the inverter, and actuating power switches of the inverter using actuation signals that are generated as a function of the measured output currents and the measured output voltages at a fundamental frequency of the energy supply grid. The actuation signals are further generated as a function of a harmonic component of the measured output voltages of the inverter at a multiple of the fundamental frequency using a control loop with positive feedback. | 2016-01-07 |
20160006367 | METHODS AND POWER CONVERSION SYSTEM CONTROL APPARATUS TO CONTROL IGBT JUNCTION TEMPERATURE AT LOW SPEED - Methods, apparatus and computer readable mediums are presented for controlling a multiphase inverter in which third harmonic injection pulse width modulation (THIPWM) is used for generating inverter switching control signals at or above a non-zero threshold inverter output frequency, and high frequency injection discontinuous pulse width modulation (HFIDPWM) is used for inverter output frequencies below the threshold, where the threshold frequency corresponds to a threshold period less than or equal to the thermal impedance time constant of the inverter switching devices, and the injected high frequency component for HFIDPWM corresponds to a common mode period less than the thermal impedance time constant to mitigate thermal stress on the inverter switches and low speed inverter output derating. | 2016-01-07 |
20160006368 | Power Converter - A power converter includes semiconductor switching elements conducting when the semiconductor switching elements fail; and open/close units that are disposed between parts having a plurality of different voltage levels and connection portions where the semiconductor switching units, which are to be connected to the parts having the different voltage levels, are connected to each other, and that open or close paths between the parts having the different voltage levels and the connection. When an excess current flows through any one of the open/close units, the one of the open/close unit opens the current path between the part having the corresponding voltage level and the connection portion. Then the power converter does not output the voltage to which the open/close unit is connected, and thereby the number of output voltage levels is reduced. | 2016-01-07 |
20160006369 | VOLTAGE CONVERTER - A radio frequency transponder circuit, comprising: an AC-DC converter ( | 2016-01-07 |
20160006370 | POWER CONVERSION APPARATUS - A power conversion apparatus includes: a first conductive member; a horizontal switching element disposed on the first conductive member; an insulating member disposed on the first conductive member; and a control switching element disposed on the first conductive member via the insulating member, the control switching element being coupled to the horizontal switching element and configured to control driving of the horizontal switching element. | 2016-01-07 |
20160006371 | Inverter Having at Least One Inverter Bridge Between Two Busbars - An inverter has an inverter bridge connected between two DC busbars on the input side and connected to an AC output on the output side. The two DC busbars run, in a manner overlapping one another, in planes which are parallel to one another. The inverter bridge has a subcircuit having a plurality of semiconductor switches between the AC output and each DC busbar. Semiconductor modules which form the two subcircuits are connected, in a manner arranged beside one another, to the two DC busbars and to the AC output via connections. A connection element which leads to the AC output begins on that side of the DC busbar which faces the semiconductor modules in a region overlapped by the DC busbars and connects the semiconductor modules of the two subcircuits to one another there. | 2016-01-07 |
20160006372 | DYNAMICALLY-BALANCED FOLDED-BEAM SUSPENSIONS - It is believed that the folded-beam suspension responds as a linear spring. Though true for the static response, this is not true for dynamic responses. For shuttle displacements in the order of the width of the flexure beams, the response becomes strongly nonlinear. This nonlinearity is caused by axial stresses which are induced due mainly to the inertia of the flying bar. A solution for this problem is given by shortening the anchored beams of the suspension by a predetermined amount, such that the flexure beams between anchor and flying bar, and between flying bar and shuttle have different lengths. In this dynamically-balanced suspension, the ratio between the motions of the shuttle and of the flying-bar ensures that the effective shortening of all beams is the same. Therefore, no axial stresses are induced, and the motion ratio is constant and unaffected by motion amplitude, resulting in a linear dynamic spring response. | 2016-01-07 |
20160006373 | Thermoelectric Generator - A thermoelectric generator includes a shape memory material configured to change shape due to a change in temperature, the shape memory material being further configured to cyclically receive heat from a heat source. The thermoelectric generator further includes a piezoelectric material coupled to the shape memory material, the piezoelectric material configured to produce electricity in response to the changed shape of the shape memory material. | 2016-01-07 |
20160006374 | SYSTEM AND METHOD FOR COLD START OF VEHICLE - A system and method for a cold start of a vehicle are provided. The method includes setting a target electrical angle by adding a setting angle to a previously stored initial electrical angle of a driving motor and applying an electric current value that corresponds to the set target electrical angle to the driving motor. | 2016-01-07 |
20160006375 | DEVICE FOR CONTROLLING A NOZZLE OF VARIABLE CROSS-SECTION OF AN AIRCRAFT - The invention relates to a control device of a nozzle of variable cross-section of an aircraft suitable for providing a three-phase AC electrical power supply, the nozzle of variable cross-section comprising one or more movable parts which make it possible to modify the cross-section of the nozzle, the control device comprising a system for regulation of the engine connected to a control element which drives at least one electric motor which by a mechanical transmission system creates the movement of the movable part or parts, wherein the electric motor is configured to use directly the electrical power supply of the aircraft and in that the control element comprises analogue type structure to switch the phases of the electrical power supply to modify the direction of rotation of the electric motor. | 2016-01-07 |
20160006376 | SYSTEM FOR CONTROLLING FAULT TOLERANCE - A system for controlling fault tolerance may include a first controller connected to a driver, a first switch connected in parallel to the first controller, a first capacitor connected in parallel to the first switch, a second switch connected in parallel to the first capacitor and different from the first switch, a first power supply connected in parallel to the first capacitor and connected in series to the second switch, and a second capacitor connected to the first switch and a ground of the first power supply and different from the first capacitor. When the first controller is broken down, the second switch may be turned off to interrupt power supply from the first power supply, and the first switch may be turned on to discharge electric charges charged in the second capacitor. | 2016-01-07 |
20160006377 | ELECTRIC DRIVE VEHICLES - An electric drive vehicle which is capable of performing a bidirectional voltage conversion between two DC power supplies and a rotary electric machine, and a connection switch between a series connection and a parallel connection of the two power supplies with respect to the rotary electric machine. The electric drive vehicle can supply electric power without a delay in response to a change in a load request. A controller sets the connection between the two power supplies to the parallel connection when an estimated value of an output electric current in accordance with a torque command to the rotary electric machine exceeds a tolerable electric current value of at least one of the two power supplies. | 2016-01-07 |
20160006378 | ELECTRIC DRIVE SYSTEM - This invention concerns an electric drive system ( | 2016-01-07 |
20160006379 | HYBRID ELECTRIFICATION SYSTEM OF PUMP STATION AND OPTIMAL OPERATION METHOD THEREOF - The present invention discloses a hybrid electrification system of pump station and optimal operation method thereof. Said hybrid electrification system of pump station, comprises a central controller. It further comprises a shared Variable Frequency Drive (VFD) busbar and a common busbar, both of which being connected to said central controller. Said shared VFD busbar is shared by two or more said motor-pump chains and selectively drives one, two or more said motor-pump chains. Compared with the existing prior arts, the proposed solutions are much more intuitive and practical in the field of the pump station. | 2016-01-07 |
20160006380 | APPARATUS FOR DRIVING MOTOR AND CONTROLLING METHOD THEREOF - There is provided an apparatus for driving a motor including: a converter applying an input voltage to each phase winding of the motor; and a processor controlling a phase current flowing to the phase winding to which the input voltage is applied to be increased or decreased in a preset reference range and controlling phase commutation of the motor based on a change in the phase current. | 2016-01-07 |
20160006381 | DEVICE AND METHOD OF 6-STEP CONTROLLING INVERTER OF MOTOR DRIVING SYSTEM - A device and a method of 6-step controlling of an inverter of a motor driving system are provided. The device and method and apply a voltage to a motor by adopting a 6-step control scheme capable of maximally using an input voltage of the inverter to improve output efficiency of the inverter and the motor and thus improve fuel efficiency of an environmentally friendly vehicle. | 2016-01-07 |
20160006382 | STEPPER MOTOR CONTROL AND FIRE DETECTION SYSTEM - Controlling a stepper motor. A stepper motor is driven towards an index position. An attempt is made to stop the stepper motor on the index position in a fashion that would ordinarily cause the stepper motor to ring at the index position. Characteristics of one or more subsequent pulses that would counteract the ringing are determined. The one or more determined subsequent pulses are issued to the stepper motor. | 2016-01-07 |
20160006383 | POWER MANAGEMENT SYSTEM HAVING AUTOMATIC CALIBRATION - A power management system having automatic calibration is disclosed. The power management system may have an alternator and an electronic control unit. The electronic control unit may be configured to determine a reference voltage based on at least one measured operating condition of the alternator. The reference voltage may correspond to an overloading threshold of the alternator. The electronic control unit may be further configured to monitor a voltage of the alternator and, when the monitored voltage is less than the reference voltage, perform a corrective action to increase a power output of the alternator. | 2016-01-07 |
20160006384 | Method of Monitoring Power Provision of a Generator Set - The present invention provides a method of remotely monitoring the power provision of a generator set at a location comprising determining an expected electrical energy usage at a first location, providing a generator set configured to provide electrical energy to power or devices at the location, the generator set arranged to provide an amount of electrical energy to meet the determined expected electrical energy usage, and the generator having a telemetry module to monitor and transmit electrical energy supply data to a second location, the telemetry module monitoring the supply data over a predetermined period and transmitting the supply data to the processor, analysing the supply data to determine a power supply profile at the first location, and comparing the power supply profile with the expected power usage and/or the power supply specifications of the generator set. | 2016-01-07 |
20160006385 | CONTROL DEVICE AND METHOD FOR IMPROVING VOLTAGE UTILIZATION RATIO OF INVERTER FOR GREEN CAR - A control device and a control method can improve a voltage utilization ratio of an inverter for a green car, in which an input DC voltage of the inverter is modulated by a maximum amount into an output AC voltage of the inverter by changing the output AC voltage incapable of being linearly output into a voltage capable of being linearly output. The control method includes steps of: generating a two-phase current command having two phases of a first current command and a second current command; generating a two-phase voltage command having two phases of a first voltage command and a second voltage command; generating a three-phase pole voltage command; modulating the three-phase pole voltage command into a linear output voltage capable of being linearly output; and calculating a voltage gain value, using the two-phase voltage command and an input DC voltage of the inverter. | 2016-01-07 |
20160006386 | MOTOR DRIVE CONTROLLER AND METHOD FOR OPERATING THE SAME - A motor driver controller including a difference control section; a driver output section; a drive current detection amplifier; and a load short-circuit detection circuit. A motor and sensing resistor is coupled in series and coupled to an output terminal of the driver output section. The difference control section generates a drive voltage command signal in response to a drive current command value and a drive current detection signal. The driver output section drives the motor and sensing resistor, in response to the drive voltage command signal, and a drive current detection amplifier generates a signal fed to the difference control section, in response to a drive current of the sensing resistor. The load short-circuit detection circuit detects an abnormal oscillation waveform signal caused by a short-circuit state between the both ends of the motor. | 2016-01-07 |
20160006387 | ROTARY MACHINE CONTROL APPARATUS - A rotary machine control apparatus controlling a drive of a rotary machine that has multiple winding groups is provided. The rotary machine control apparatus includes electric power converters in multiple systems, a failure detection portion, and a control portion. An electric power converter has switching elements in an upper arm and a lower arm and converts DC power. The failure detection portion detects a failure of an electric power converter or a winding group. The control portion calculates a current command value and a maximum current limit value, and controls an output to the electric power converter. The control portion stops the output to the electric power converter in a failure system, and the control portion increases the maximum current limit value with respect to the output to an electric power converter in a normal system. | 2016-01-07 |
20160006388 | MOTOR DRIVE DEVICE - A motor drive device is provided which is able to reduce loss between a drive power source and a controller. The motor drive device includes a plurality of motors, a single drive power source which drives these motors, and a controller which controls energizing times during which motor coils of the plurality of motors are energized, by a PWM drive method. The controller includes phase shift portion which sets a PWM signal for causing a current to flow to the motor, into a phase different per motor. By the phase shift portion setting the PWM signal for causing a current to flow to the motor into a phase different per motor, so-called overlap of energizing times of currents is avoided. | 2016-01-07 |
20160006389 | SERIES MULTIPLEX MATRIX CONVERTOR, POWER GENERATION SYSTEM, AND METHOD FOR CONTROLLING POWER FACTOR - A series multiplex matrix converter includes a power converter and a controller. The power converter is disposed between a power system and a rotating electric machine, and includes a plurality of power conversion cells connected in series to each other. The controller is configured to control at least one power conversion cell among the plurality of power conversion cells to cause a current to flow from the at least one power conversion cell toward the rotating electric machine, and configured to control a rest of the plurality of power conversion cells to cause the current flowing toward the rotating electric machine to flow from the rest of the plurality of power conversion cells toward the power system as a reactive current. | 2016-01-07 |
20160006390 | Solar Panel Mechanical Connector And Frame - A bracket for coupling frames of solar panels includes a spacer for positioning between frames. An elongated body passes through a slot in the spacer and is positionable within channels formed in the frames. A clamp secures to the spacer and is biased toward the slot and elongated body, such as by means of a spring. The clamp defines seats for receiving portions of the frames of the solar panels. Sloped portions on end portions of the clamp facilitate insertion of the frames between the elongated body and the clamp. Another type of bracket includes a spacer and clamp, the spacer having protuberances for insertion into channels in the frames. A flange extends from the spacer such that it extends between the frames when the protuberances are positioned within the channels. An L-foot or other fixture may secure to the flange to secure the solar panels to a structure. | 2016-01-07 |
20160006391 | CORDED LATTICE BASED FLOATING PHOTOVOLTAIC SOLAR FIELD WITH INDEPENDENTLY FLOATING SOLAR MODULES - Provided herein is a floating photovoltaic solar device designed to reduce the effect of wind forces without the use of external control or power. The device includes a floating anchored frame with a means for connecting an internal corded lattice; a corded lattice suspended within the floating frame and forming a set of polygonal cells in which independently floating solar photovoltaic modules are positioned. Access for scheduled and unscheduled maintenance may be provided by a floating service gantry. The system is modular and several devices may be connected in a honeycomb-like structure. | 2016-01-07 |
20160006392 | Safe Photovoltaic System - The invention provides a fault detection system in a photovoltaic system | 2016-01-07 |
20160006393 | OSCILLATOR AND SEMICONDUCTOR DEVICE INCLUDING THE SAME - An oscillator includes a flip-flop that outputs a first signal having a phase that is inverted according to a comparison signal, a comparison circuit that compares an amplification voltage with a first reference voltage and outputs the comparison signal, a current source having an output voltage that is fixed to a second reference voltage, and an amplification circuit that generates the amplification voltage according to a current outputted from the current source and the second reference voltage. | 2016-01-07 |
20160006394 | System and Method for a Voltage Controlled Oscillator - In accordance with an embodiment, an oscillator includes a tank circuit and an oscillator core circuit having a plurality of cross-coupled compound transistors coupled to the tank circuit. Each of the plurality of compound transistors includes a bipolar transistor and a field effect transistor (FET) having a source coupled to a base of the bipolar transistor. | 2016-01-07 |
20160006395 | BUFFER AMPLIFIER AND TRANS-IMPEDANCE AMPLIFIER INCLUDING THE SAME - Provided is a buffer amplifier. The buffer amplifier includes: a replica bias unit dividing an internal power voltage received from an internal power node to generate a bias voltage; an input unit including a first differential amplifier comparing a first differential input signal with the bias voltage to output a first internal signal and a second differential amplifier comparing a second differential input signal with the bias voltage to output a second internal signal; and an output unit including a third differential amplifier comparing the first internal signal with the second internal signal to output a first differential output signal and a second differential output signal. | 2016-01-07 |
20160006396 | EFFICIENCY FOR LINEAR AMPLIFIER OF ENVELOPE TRACKING MODULATOR - There is disclosed an envelope tracking power supply arranged to generate a modulated supply voltage in dependence on a reference signal, comprising a first path for tracking low frequency variations in the reference signal and a second path for tracking high frequency variations in the reference signal, the second path including a linear amplifier, wherein the output of the linear amplifier comprises a current source and a current sink connected to the high frequency output, there further being provided a DC offset current at the high frequency output. | 2016-01-07 |
20160006397 | RESONANCE SUPPRESSION FOR ENVELOPE TRACKING MODULATOR - An envelope tracking power supply arranged to generate a modulated supply voltage in dependence on a reference signal, comprising a first path for tracking low frequency variations in the reference signal and a second path for tracking high frequency variations in the reference signal, and further comprising a combiner having a low frequency combining element for the first path and a high frequency combining element for the second path, and for generating the modulated supply voltage, wherein there is further provided sensing circuitry for sensing a resonance signal in the low or high frequency combining element, and adjusting circuitry for adjusting a signal in the first path in dependence on the sensed resonance signal. | 2016-01-07 |
20160006398 | GROUP DELAY CALIBRATION OF RF ENVELOPE TRACKING - An RF communications system, which includes an RF power amplifier, an envelope tracking power supply, and supply control circuitry, is disclosed. The RF communications system operates in one of a normal operation mode and a calibration mode. During the calibration mode, the RF power amplifier receives and amplifies an RF input signal to provide an RF transmit signal using an envelope power supply signal, which is provided by the envelope tracking power supply. Further, the supply control circuitry controls the envelope tracking power supply to cause a sharp transition of the envelope power supply signal when a setpoint of the envelope power supply signal transitions through a setpoint threshold of the envelope power supply signal. | 2016-01-07 |
20160006399 | DOHERTY AMPLIFIER - A two-way Doherty amplifier for amplifying a modulated or non-modulated carrier signal, said carrier signal having a carrier frequency; wherein the Doherty amplifier comprises a first amplifier having a first amplifier output node, a second amplifier having a second amplifier output node, a combining node connected or connectable to a load, a first amplifier output line connecting the first amplifier output node to the combining node, and a second amplifier output line connecting the second amplifier output node to the combining node, and wherein the first amplifier output line has an electrical length of substantially one quarter wavelength of the carrier signal and the second amplifier output line has an electrical length of substantially one half wavelength of the carrier signal. | 2016-01-07 |
20160006400 | DISTRIBUTED POWER AMPLIFIER CIRCUIT - A distributed power amplifier circuit is disclosed. The distributed power amplifier circuit comprises an amplifier arrangement comprising a plurality of sub amplifiers, each having an output port for outputting an output signal of the sub-amplifier and an output combiner network for combining the output signals from the sub amplifiers. The output combiner network includes, for each sub amplifier, an associated auto transformer operatively connected to the output port of the sub amplifier for receiving the output signal of the sub amplifier. The auto transformers each have a first interconnection terminal and a second interconnection terminal. The auto transformers are operatively connected in series via the interconnection terminals, thereby forming a chain of auto transformers having a first end and a second end, wherein the first end is arranged to be connected to an antenna. | 2016-01-07 |
20160006401 | WIDE-BAND MULTI STAGE DOHERTY POWER AMPLIFIER - A multi-stage Doherty power amplifier (“PA”) circuit which achieves superior efficiency over broadband range of frequencies is disclosed. Conventional multi-stage amplifiers may offer potential for efficiency enhancement but may suffer from cost penalties and severe bandwidth limitation in practice. Embodiments may employ a driver in the peaking arm which is biased in class C which may alleviate such limitations. The amplifier topology and associated circuitry described in embodiments may achieve high efficiency, smooth PA gain, and enhanced phase characteristics over a 15% fractional bandwidth with reduced costs. | 2016-01-07 |
20160006402 | EDGE CORRECTION TO MITIGATE TOTAL HARMONIC DISTORTION IN CLASS D AMPLIFIER - A circuit includes an amplifier output stage that includes a high switch and a low switch that generates a pulse width modulated (PWM) output signal to provide a load current to a load in response to a PWM input signal. The circuit includes a high gate drive that drives the high switch with a PWM high drive signal derived from the PWM input signal. This includes a low gate drive that drives the low switch with a PWM low drive signal derived from the PWM input signal. The circuit includes an edge corrector that adjusts at least one of a leading edge and a trailing edge of the PWM input signal to compensate for response time differences with respect to a direction of the load current to the load. | 2016-01-07 |
20160006403 | MULTISTAGE AMPLIFIER CIRCUIT WITH IMPROVED SETTLING TIME - Described examples include multistage amplifier circuits having first and second forward circuits, a comparator or sensor circuit coupled to sense a signal in the second forward circuit to identify nonlinear operation or slewing conditions in the multistage amplifier circuit, and one or more sample hold circuits operative according to a sensor circuit output signal to selectively maintain the amplitude of an amplifier input signal in the second forward circuit and/or in a feedback circuit in response to the sensor circuit output signal indicating nonlinear operation or slewing conditions in the multistage amplifier circuit. Certain examples further include a clamping circuit operative to selectively maintain a voltage at a terminal of a Miller compensation capacitance responsive to the comparator output signal indicating nonlinear operation or slewing conditions. | 2016-01-07 |
20160006404 | Method and Device for Controlling a Power Amplifier Capable of Utilizing Nonlinearity Correction and a Power Amplifier System - There is disclosed a method for controlling a power amplifier capable of utilizing nonlinearity correction in a nearly steady operation status of non-linearity correction, in a periodical fast switching system in time domain. The method may comprise receiving a periodic switch signal indicating switch time of the periodical fast switching system; and providing, based on the periodic switch signal, a pre-bias signal with a pre-determined voltage amplitude to the power amplifier for a pre-determined time period before each downlink time slot to preheat a transistor of the power amplifier so as to compensate a temperature change of a die inside the transistor. | 2016-01-07 |
20160006405 | AMPLIFIER DEVICE WITH AT LEAST ONE MICROWAVE TUBE - An amplifier device with at least one microwave tube, intended to be mounted on a satellite, includes a high voltage section directly connected to said microwave tube or tubes, a low voltage section, and a low voltage cabling assembly provided with low voltage connectors at the ends thereof connecting said low and high voltage sections. | 2016-01-07 |
20160006406 | CROSS PRODUCT ENHANCED SUBBAND BLOCK BASED HARMONIC TRANSPOSITION - The invention provides an efficient implementation of cross-product enhanced high-frequency reconstruction (HFR), wherein a new component at frequency QΩ+rΩ | 2016-01-07 |
20160006407 | SWITCHLESS MULTIBAND FILTER ARCHITECTURE - A cable modem is provided in a premises. The cable modem is operated in a first mode with a first upstream passband. At least one fusible link in the cable modem is caused to be blown, which in turn causes the cable modem to upgrade to a second mode with a second upstream passband, greater than the first upstream passband, without use of any switch. | 2016-01-07 |
20160006408 | MODULE - A module includes: a first duplexer including a common terminal coupled to a first terminal of a diplexer, the diplexer including an antenna terminal coupled to an antenna, the first terminal, and a second terminal; and a second duplexer including a common terminal coupled to the second terminal of the diplexer and having a passband different from a passband of the first duplexer, wherein a frequency at which a reactance component of an impedance is approximately zero and the impedance is less than a reference impedance is not located in a passband of the first duplexer, the impedance being an impedance when the second duplexer is viewed from a node at which the antenna terminal is divided into the first terminal and the second terminal in the diplexer. | 2016-01-07 |
20160006409 | RADIO FREQUENCY SWITCHING SYSTEM WITH IMPROVED LINEARITY - A radio frequency (RF) circuit is described that comprises a plurality of switching arms selectively activatable and associated with corresponding RF input ports. A switch source impedance is associated with each of the RF input ports. The switch source impedance is frequency dependent with its value matched to a characteristic impedance value within a first frequency range. The value of the switch source impedance is not matched to the characteristic impedance value within a second frequency range. When an RF signal within the first frequency range is transmitted through the RF circuit, between one of the RF input ports and an a common port, an RF distortion voltage within a distortion frequency range results at the common port; and the amplitude of a resultant RF distortion voltage is lower than an RF distortion voltage if the switched source impedance is matched to the characteristic impedance within the second frequency range. | 2016-01-07 |
20160006410 | ACOUSTIC WAVE DEVICES, AND ANTENNA DUPLEXERS, MODULES, AND COMMUNICATION DEVICES USING SAME - An elastic wave device including a substrate, an interdigital transducer (IDT) electrode provided on an upper surface of the substrate, a first wiring electrode provided on the upper surface of the substrate and connected to the IDT electrode, a dielectric film that does not cover a first region of the first wiring electrode but covers a second region of the first wiring electrode above the substrate, the first wiring electrode including a cutout in the second region, and a second wiring electrode that covers an upper surface of the first wiring electrode in the first region and an upper surface of the dielectric film in the second region above the substrate. | 2016-01-07 |