19th week of 2016 patent applcation highlights part 60 |
Patent application number | Title | Published |
20160134172 | DEVICE FOR GENERATING ELECTRICITY - A device for generating electricity includes a support; a driving element rotatably mounted on the support; an electricity generator disposed on the support; a circuit board connected to the electricity generator; and a drive assembly disposed on the support and including an input gear and an output gear. The driving element is coupled with the input gear to drive the input gear to rotate, and the output gear is coupled with the electricity generator and driven to rotate by the input gear. | 2016-05-12 |
20160134173 | RECIPROCATING MAGNET ELECTRICAL GENERATOR - A short burst electrical energy harvesting generator in one embodiment including a reciprocating magnet, under the magnetic influence of dual repelling magnets, whose travel path oscillates within a centered through hole coil bobbin thereby producing an induced voltage at the coil terminals. This induced voltage can be utilized to power battery-less and wireless remote communications control function such as ISMB and wireless transmitters and battery-less electronic device applications. | 2016-05-12 |
20160134174 | HEAT DISSIPATION APPARATUS FOR MOTORS - The present disclosure relates to a heat dispersion apparatus for motors, which comprises: a cooling fan, and a guide cover. The cooling fan has a plurality of fan blades disposed radially on a back plate, the outside portion he fan blades axially extend beyond the periphery of the back plate, and the back plate is an oblique cone structure. The guide cover has air inlet, a plurality of holes opened on the surface of the air inlet with slots, the slots arranged in accordance with the rotation direction of the cooling fan, and each slot set up a chamfer for leading into more air to reduce temperature. With the aforesaid device, the airflow supercharging and peripheral axial flow increment are improved, and the hole slot structure of the cooling fan blades can introduce large scale of air, the present invention provides a significant improvement to motors. | 2016-05-12 |
20160134175 | AN AIR-TO-AIR HEAT EXCHANGER - The heat exchanger comprises a first housing ( | 2016-05-12 |
20160134176 | SYSTEM FOR LIQUID COOLING FOR A PUMP MOTOR - A system for liquid cooling for a motor for a pump is provided. The system includes a motor configured to be coupled to a pump to move a liquid from an inlet side of the pump associated with a first pressure to an outlet side of the pump associated with a second pressure that is greater than the first pressure. The system additionally includes a heat transfer tube adjacent to at least a portion of the motor. The heat transfer tube is configured to receive at least a portion of the liquid from the outlet side of the pump and transfer heat away from said motor using the liquid. | 2016-05-12 |
20160134177 | LIQUID COOLED ELECTRIC MOTOR - According to an embodiment, a liquid cooled electric motor includes a case; a rotator including a rotation shaft and a rotator core secured to the rotation shaft; a stator opposed to an outer circumference of the rotator core; a cooling portion provided around a stator core and configured to allow a liquid coolant to flow therein; a ventilation duct provided on an outer side of the case and configured to communicate first opening and second opening of the case with each other; a rotator fan mounted on the rotation shaft to be rotatable with the rotation shaft; a heat exchanger provided in the ventilation duct; and a cooling system configured to supply the liquid coolant to the cooling portion and the heat exchanger. | 2016-05-12 |
20160134178 | ELECTRIC DRIVE DEVICE - Electric drive device for an electric power steering system that includes an electric motor with a motor case, and a motor shaft with a drive end, an electronic control unit that controls the drive of the motor, According to one embodiment the electronic control unit includes a power board and a heat sink. A connector coupled to a side of the electric drive device is at least partially maintained in its position with the use of one or more projections projecting from a first area of the connector that reside within one or more corresponding housings located in a peripheral region of the heatsink. | 2016-05-12 |
20160134179 | METHOD OF MANUFACTURING ROTOR - There is provided a method of manufacturing a rotor that includes a permanent magnet inserted into a magnet-insert hole formed in a rotor core, a positioning member which is inserted into the magnet-insert hole and positions the permanent magnet with respect to the rotor core, and a resin material for fixing the permanent magnet to the magnet-insert hole by filling the magnet-insert hole with the resin material. In the method, a mold unit is provided above or below the rotor core, and another positioning member used for manufacturing another rotor is molded using the mold unit while filling the magnet-insert hole with the resin material. | 2016-05-12 |
20160134180 | MULTI-LAYER SANDWICH-SHAPED ELECTRIC WHEEL - A wheel assembly comprising a wheel-shaped stator plate provided between two wheel-shaped rotor plates, all of which being co-axially attached to a rotation shaft. Each rotor includes a plurality of permanent magnets on the side facing the stator. The stator includes a plurality of coils corresponding in position to the permanent magnets of the rotors. Corresponding magnet faces of the different rotors have opposite orientations, and adjacent magnet faces of the same rotor have also opposite orientations. The rotors are attached to each other to maintain this configuration in place as the rotors rotate. The coils are configured so that each coil generates a magnetic field that extends across the surface of the stator plate to react with corresponding permanent magnets in both rotors, thus maximizing use of the magnetic field generated by the coils and causing the rotor plates to rotate simultaneously. A stream of cooling fluid may be run within the stator plate for reducing overheating. | 2016-05-12 |
20160134181 | LINEAR MOTOR, COMPRESSOR EQUIPPED WITH LINEAR MOTOR AND EQUIPMENT EQUIPPED WITH LINEAR MOTOR - There is provided a linear motor that can detect the displacement of a moving member or the inclination of the moving member in a direction in which two windings are opposed to each other and equipment equipped with the linear motor. A linear motor includes: a first armature having an upper winding and a lower winding opposed to the upper winding through a gap in a vertical direction; a moving member having a permanent magnet and enabled to reciprocate in a longitudinal direction with respect to the first armature; and a current detecting unit that detects an electric current carried through the first armature. The upper winding and the lower winding are in parallel connection. | 2016-05-12 |
20160134182 | INDIRECT REGULATION OF OUTPUT CURRENT IN POWER CONVERTER - A controller includes a multiplier block that is coupled to receive an input voltage signal, an input current signal, and an output voltage signal that are representative of a power conversion system. The multiplier block outputs a multiplier block output signal responsive to a product of the input voltage signal and the input current signal divided by the output voltage signal. A signal discriminator outputs a error signal responsive to the multiplier block output signal. The error signal is representative of a difference between a portion of the multiplier block output signal that is greater than a reference signal and a portion of the multiplier block output signal that is less than or equal to the reference signal. A switch controller generates a drive signal responsive to the error signal to control switching of a power switch to regulate an average output current of the power conversion system. | 2016-05-12 |
20160134183 | VCC Charge and Free-Wheeling Detection via Source Controlled MOS Transistor - A driver circuit using a power converter allows free-wheeling detection and/or provision of supply voltage. A circuit controls a switching state of a power switch. A first port of the switch is coupled to an inductor. The circuit is coupled to a control port of the switch wherein the control port of the switch is different from the first port of the switch. The circuit comprises a unit generating a signal for controlling the switching state of the switch wherein the signal is provided to the control port of the switch. Furthermore, the circuit comprises free-wheeling sensing means to detect an oscillation of a voltage at a measurement port of the switch wherein the measurement port of the switch is different from the first port of the switch and wherein the oscillation of the voltage at the measurement port indicates free-wheeling of the inductor. | 2016-05-12 |
20160134184 | FAST HIGH-SIDE POWER FET GATE SENSE CIRCUIT FOR HIGH VOLTAGE APPLICATIONS - A circuit for sensing gate voltage of a power FET. A switching circuit includes a switching FET having a high voltage rating, its drain coupled to the gate of the power FET, and its source coupled to an output node. A first feedback loop is coupled to the gate of the switching FET to facilitate sensing rising gate voltage. A second feedback loop is coupled to the gate of the switching FET to facilitate sensing falling gate voltage. | 2016-05-12 |
20160134185 | Current Zero-Cross Detection Device, Signal Acquisition Circuit, and Circuit System - Disclosed are a current zero-cross detection device, zero-cross current signal acquisition circuit and totem pole bridgeless circuit system. The current zero-cross detection device includes a current transformer, first sampling switch, second sampling switch, sampling resister, comparator. The current transformer includes a primary winding and a secondary winding; the primary winding is connected to a circuit to be detected; two ends of the secondary winding are connected respectively to drain electrodes of the first and second sampling switches; source electrodes of first and second sampling switches are connected to ground; two ends of the sampling resistor are connected respectively to the drain electrode and source electrode of the second sampling switch; the negative input end of the comparator is connected to the drain electrode of the second sampling switch, its positive input end is connected to a reference voltage; the first and second sampling switches are in ON or OFF state. | 2016-05-12 |
20160134186 | INTRODUCING JITTER TO A SWITCHING FREQUENCY BY WAY OF MODULATING CURRENT LIMIT - A controller for use in a power converter includes a switch controller coupled to a power switch coupled to an energy transfer element. The switch controller is coupled to receive a current sense signal representative of a drain current through the power switch. The switch controller is coupled to generate a drive signal to control switching of the power switch in response to the current sense signal and a modulated current limit signal to control a transfer of energy from an input to an output of the power converter. A current limit generator is coupled to generate a current limit signal. A jitter generator is coupled to generate a jitter signal. An arithmetic operator circuit is coupled to generate the modulated current limit signal in response to the current limit signal and the jitter signal. | 2016-05-12 |
20160134187 | POWER CONVERTER CONTROLLER WITH ANALOG CONTROLLED VARIABLE CURRENT CIRCUIT - A bleeder controller for controlling a magnitude of a variable current conducted by bleeder circuitry between input terminals of a device is disclosed. The magnitude of the variable current is controllable in response to a control signal. The bleeder controller includes a dimming detector to classify a half line cycle as leading-edge-dimmed or a trailing-edge-dimmed in response to at least one of an input current sense signal and an input voltage sense signal. | 2016-05-12 |
20160134188 | METHOD AND APPARATUS FOR PROVIDING SUPPLEMENTAL POWER IN A LED DRIVER - A DC current driver includes a DC current drive circuit configured to provide a DC supply current and receive a DC return current. A switch is coupled in series with the DC return current, and a supplemental power supply is coupled in parallel with the switch and configured to provide a supplemental voltage. Opening the switch diverts the DC return current through the supplemental supply and closing the switch causes the DC return current to bypass the supplemental supply. | 2016-05-12 |
20160134189 | POWER CONVERTER CONTROLLER WITH INPUT CURRENT SLOPE ADJUSTMENT - A transient event detector includes a first reference generator, an adjustable low-pass filter, and a comparator. The first reference generator coupled to scale the input current signal to generate a first reference current signal that tracks the input current signal. The adjustable low-pass filter circuit is coupled to receive the input current signal and to generate a filtered input current signal such that a magnitude of a slope of the filtered input current signal is less than the magnitude of the slope of the input current signal during a transient event. The first comparator is coupled to generate an event detection signal that indicates the presence of the transient event in response to a value of the filtered input current signal reaching a value of the first reference current signal. The adjustable low-pass filter circuit is configured to increase the cutoff frequency in response to the event detection signal. | 2016-05-12 |
20160134190 | VOLTAGE CONVERTER - A voltage converter in which switching between step-down conversion and step-up conversion is performed constantly, without being affected by a voltage drop of a circuit element, and temperature change and variation of the circuit element. The voltage converter includes a step-down PWM signal generation circuit and a step-up PWM signal generation circuit and component for increasing the step-down target voltage. | 2016-05-12 |
20160134191 | VARIABLE POWER ENERGY HARVESTING SYSTEM - The disclosed invention provides examples of preferred embodiments including systems for harvesting energy from variable output energy harvesting apparatus. The systems include energy harvesting apparatus for providing energy input to a switched mode power supply and a control loop for dynamically adjusting energy harvesting apparatus input to the switched mode power supply, whereby system output power is substantially optimized to the practical. Exemplary embodiments of the invention include systems for harvesting energy using solar cells in boost, buck, and buck-boost configurations. | 2016-05-12 |
20160134192 | POWER SUPPLY SYSTEM - A power supply system includes a rectifier circuit, a voltage decreasing circuit, and a feedback circuit. The rectifier circuit receives an AC voltage, and converts the AC voltage to a rectifying DC voltage. The voltage decreasing circuit decreases the rectifying DC voltage to a first DC voltage. The feedback circuit includes a photoelectric coupler, a PWM controller, a voltage regulating tube, and a variable resistor. The photoelectric coupler includes a light emitting unit and a switch unit. The variable resistor detects a change of the first DC voltage, and outputs a regulating signal. The voltage regulating tube adjusts a current flowing through the light emitting unit. The switch unit detects the light from the light emitting unit and turns on. The PWM controller outputs PWM signals to the voltage decreasing circuit. The voltage decreasing circuit adjusts the first DC voltage according to a duty cycle of the PWM signals. | 2016-05-12 |
20160134193 | POWER CONTROL APPARATUS WITH DYNAMIC ADJUSTMENT OF DRIVING CAPABILITY - A power control apparatus with dynamical adjustment of driving capability for converting an input power into an output power includes a transformer, a switch transistor connected to the transformer, a pulsed width modulation (PWM) driving controller generating a PWM signal and connected to the switch transistor, an isolation element, an output diode and an output capacitor. The first side coil of the transformer and the switch transistor are connected to the input power, the second side coil of the transformer is connected to the output diode and further connected to the output capacitor and an external load. The isolation element converts the output power into a feedback signal providing the PWM driving controller to dynamically control the PWM driving signal through adjustment so as to implement the optimal turn-on current for the switch transistor. Therefore, electrical performance and conversion efficiency are greatly improved by reducing the switching loss. | 2016-05-12 |
20160134194 | PHASE ANGLE DETECTION MODULE FOR POWER CONVERTER - A power converter controller asserts a leading edge signal when a leading edge of a voltage signal is detected. The voltage sense signal is representative of an input voltage of the power converter. A trailing edge signal is asserted when a trailing edge of the voltage signal is detected. A first state of a threshold signal is generated when the voltage sense signal is at or above an upper threshold and generating a second state of the threshold signal when the voltage sense signal is at or below a lower threshold. A conduction signal is updated in response to the leading edge signal, the trailing edge signal, and the threshold signal. The conduction signal is for controlling a switch coupled to regulate an output of the power converter. | 2016-05-12 |
20160134195 | PCB PLANAR TRANSFORMER AND CONVERTER USING THE SAME - A PCB planar transformer, comprising: at least one primary winding layer, each formed with a primary winding therein, wherein wire traces constituting the primary winding have a first horizontal width; at least one secondary winding layer, each formed with a secondary winding therein, wherein wire traces constituting the secondary winding have a second horizontal width; and at least one shielding layer, each located between the primary winding layer and the adjacent secondary winding layer, wherein the shielding layer is formed with a conductor therein, and the conductor in the shielding layer has a third horizontal width, wherein at least one of the first horizontal and the second horizontal width is smaller than the third horizontal width of the conductor in the shielding layer. | 2016-05-12 |
20160134196 | Converter One Pin Sensing - Power converters, such as switched-mode power converters comprise a reduced number of sensing pins. A power converter is configured to convert electrical energy at an input voltage into electrical energy at an output voltage. The power converter comprises a power switch configured to be switched between on- and off-states; and a controller configured to generate a control signal for putting the power switch into the on-state and off-state, respectively; wherein the control signal is generated based on a first and second measurement signal from the power converter external to the controller. The controller comprises a sensing pin configured to sense the first measurement signal, when the power switch is in on-state, and configured to sense the second measurement signal, when the power switch is in off-state. | 2016-05-12 |
20160134197 | INPUT OVERVOLTAGE PROTECTION USING CURRENT LIMIT - A controller for use in a power converter includes a state selection circuit coupled to receive an input voltage sense signal representative of an input voltage, a switch current sense signal representative of a switch current of a power switch, and a feedback signal representative of an output quantity of the power converter. The state selection circuit is coupled to generate an input voltage signal in response to the input voltage sense signal, an input current signal in response to the switch current sense signal, and an input threshold signal in response to the feedback signal. A state machine circuit is coupled to the state selection circuit to generate a drive signal in response to the input voltage signal, the input current signal, and the input threshold signal to switch the power switch to control a transfer of energy from an input to an output of the power converter. | 2016-05-12 |
20160134198 | ELECTRICAL CIRCUIT FOR DELIVERING POWER TO CONSUMER ELECTRONIC DEVICES - An electrical circuit for providing electrical power for use in powering electronic devices, such as monitors, televisions, white goods, data centers, and telecom circuit boards, is described herein. The electrical circuit includes an input terminal configured to receive an input power signal, an output terminal configured to provide an output power signal, and a plurality of voltage reduction circuit cells coupled between the input terminal and the output terminal. Each of the voltage reduction circuit cells includes a pair of flyback capacitors, a switching circuit, and a hold capacitor. The switching device is configured to operate the corresponding voltage reduction circuit cell at a charging phase and at a discharging phase. The plurality of voltage reduction circuit cells are configured to deliver the output power signal having a voltage level that is less than the voltage level of the input power signal. | 2016-05-12 |
20160134199 | HIGH VOLTAGE ANALOG SWITCH - A high voltage analog switch can be used in medical ultrasound applications. The high voltage analog switch can pass high voltage transducer excitation signals without necessarily having any high voltage power supplies. The high voltage analog switch can include three output switches, with one of the output switches having a clamp circuit for ensuring that transistors of an output switch on an input end of the high voltage analog switch remain OFF when the high voltage analog switch is OFF. | 2016-05-12 |
20160134200 | POWER CONVERTER WITH OIL FILLED REACTORS - It is provided a power converter for transferring power between a high voltage DC connection and a high voltage AC connection. The power converter includes a power converter assembly including: a first converter arm, a first reactor, a second reactor and a second converter arm, connected serially between the positive and negative terminals of the DC connection. The high voltage AC connection is provided between the first reactor and the second reactor. Each one of the converter arms includes a plurality of converter cells and each one of the converter cells includes a switching element and an energy storage element. Both the first reactor and the second reactor are oil filled reactors. | 2016-05-12 |
20160134201 | CONTROL METHOD AND CONTROL DEVICE FOR INVERTER SYSTEM - The present application discloses a control method and a control device for parallel inverters. The method comprises: receiving a feedback signal Vmg reflecting load voltage and a voltage reference signal Vref to generate a command signal P | 2016-05-12 |
20160134202 | CONTROL SIGNAL GENERATING SYSTEM AND INVERTER CONTROL DEVICE THEREOF - Inverter control device is provided. First correcting-signal providing unit of the inverter control device provides a signal reflecting an active power correcting signal. Active power control unit of the inverter control device generates an angle control signal reflecting an output voltage phase of an inverter. Second correcting-signal providing unit of the inverter control device provides a signal reflecting a reactive power correcting signal. Reactive power control unit of the inverter control device generates a control signal reflecting an output voltage amplitude of the inverter. Processing unit of the inverter control device receives a feedback signal reflecting an output current of the inverter, a feedback signal reflecting an output voltage of the inverter, the angle control signal, and the control signal, and outputs a signal reflecting the active power of the inverter, a signal reflecting the reactive power of the inverter, and a voltage command signal. | 2016-05-12 |
20160134203 | Apparatus And Method For Lifting Objects - A device and a method for moving an object in a vertical direction are disclosed. The device includes a plurality of piezo-actuators expanding in directions upon activation and in doing so generating pressure forces on an active side, and a hydraulic transmission device that converts the pressure forces of the piezo-actuators into a vertical pressure force for moving the object opposite the direction of gravity and transmits the pressure force with a transmission ratio. The object is lifted after the vertical pressure force has exceeded an oppositely acting spring force of a spring system. | 2016-05-12 |
20160134204 | VIBRATIONAL ENERGY HARVESTING SYSTEM - A vibrational energy harvesting system is disclosed. Included is a first energy harvesting unit and a second energy harvesting unit that convert mechanical vibrations into first and second AC signals, respectively. A first AC-DC converter coupled to the first energy harvesting unit and a second AC-DC converter coupled to the second energy harvesting unit are configured to convert the first AC signal and the second AC signal into a first DC signal and a second DC signal, respectively. A DC-DC converter is coupled between the second AC-DC converter and a controller, and is configured to receive the second DC signal and provide a regulated DC signal by using energy from the second DC signal in response to a periodic signal generated by the controller. Typically, an energy storage unit is coupled to the DC-DC converter and is configured to receive and store energy from the regulated DC signal. | 2016-05-12 |
20160134205 | DETECTION OF ELECTRIC MOTOR SHORT CIRCUITS - One embodiment describes a method that includes determining a desired torque level of a motor actuated by a motor starter; determining, using a control system, a configuration of the motor starter to achieve the desired torque level, in which determining the configuration includes determining which of a plurality of switching devices in the motor starter should be opened and which should be closed; and instructing, using the control system, the motor starter to implement the determined configuration by opening or closing one or more of the plurality of switching devices. | 2016-05-12 |
20160134206 | 5-POLE BASED WYE-DELTA MOTOR STARTING SYSTEM AND METHOD - One embodiment describes a motor starter, which includes a first single pole switching device that opens to disconnect power from a first winding of a motor; a second single pole switching device that closes after the first switching device opens to connect power to the first winding; a third single pole switching device closes after the second single pole switching device closes to increase power supplied to a second winding of the motor; a fourth single pole switching device that opens after the third single pole switching device closes to disconnect power supplied to a third winding of the motor and to reduce power supplied to the second winding; and a fifth single pole switching device that closes after the fourth switching device opens to connect power to the third winding. | 2016-05-12 |
20160134207 | SYNCHRONIZED REAPPLICATION OF POWER FOR DRIVING AN ELECTRIC MOTOR - One embodiment describes a method that includes, when a motor is disconnected from a power source: starting, using a control circuitry, a counter at a first voltage zero-crossing by either a source voltage or a back electromotive force generated by the motor; stopping, using the control circuitry, the counter at a next subsequent second voltage zero-crossing by either the source voltage or the back electromotive force; monitoring, using the control circuitry, a trend in counter values; and instructing, using the control circuitry, one or more switching devices to reconnect the power source to the motor after a local minimum in the counter value trend such that the source voltage is leading the back electromotive force. | 2016-05-12 |
20160134208 | TORQUE-BASED STEPWISE MOTOR STARTING - One embodiment describes a method that includes determining a desired torque level of a motor actuated by a motor starter; determining, using a control system, a configuration of the motor starter to achieve the desired torque level, in which determining the configuration includes determining which of a plurality of switching devices in the motor starter should be opened and which should be closed; and instructing, using the control system, the motor starter to implement the determined configuration by opening or closing one or more of the plurality of switching devices. | 2016-05-12 |
20160134209 | 6-POLE BASED WYE-DELTA MOTOR STARTING SYSTEM AND METHOD - One embodiment describes a motor starter including a first single pole switching device that opens to disconnect power from a first winding of a motor; a second single pole switching device that closes after the first switching device opens to connect power to the first winding; a third single pole switching device that opens to disconnect power from a second winding of the motor; a fourth single pole switching device that closes after the third single pole switching device opens to connect power to the second winding; a fifth single pole switching device that opens to disconnect power form a third winding of the motor; and a sixth single pole switching device closes after the fifth single pole switching device opens to connect power to the third winding. | 2016-05-12 |
20160134210 | MODULAR MULTIPLE SINGLE-POLE ELECTROMAGNETIC SWITCHING SYSTEM AND METHOD - One embodiment describes a wye-delta starter, which includes a first single pole, single current carrying path switching device that selectively connects and disconnects a first winding of a motor in a wye configuration; a second single pole, single current carrying path switching device that selectively connects and disconnects the first winding in a delta configuration, in which the first switching device and the second switching device are coupled via a first interlock; a third single pole, single current carrying path switching device that selectively connects and disconnects a second winding and a third winding of the motor in the wye configuration; a fourth single pole, single current carrying path switching device that selectively connects and disconnects the second winding in the delta configuration, in which the third switching device and the fourth switching device are coupled via a second interlock; and a fifth single pole, single current carrying path switching device that selectively connects and disconnects the third winding in the delta configuration. | 2016-05-12 |
20160134211 | VENTILATEUR COMPORTANT UN DISPOSITIF DE TRANSFORMATION D'UN COURANT ELECTRIQUE TRIPHASE - A fan, characterized in that the conversion device ( | 2016-05-12 |
20160134212 | Motor Control Apparatus, Electric Power Steering Apparatus and Vehicle Using the Same - A motor control apparatus includes a motor current shutoff unit inserted between a multi-phase inverter circuit and a multi-phase electric motor to shut off a current for each of plural phases, the inverter circuit including an arm for each of the plural phases, a redundant arm unit including one or more arms, a connection selecting unit selecting which one of windings of the electric motor is to be connected to each of the one or more arms of the redundant arm unit, an abnormal arm detection unit detecting an abnormality in each of the plural phases of the inverter circuit, and an abnormality control unit shutting off connection between an abnormal arm and the motor when the abnormal arm detection unit detects the abnormal arm, and connecting the one or more arms of the redundant arm unit to a winding of the motor shut off. | 2016-05-12 |
20160134213 | ESTIMATION SYSTEM FOR ROTOR INFORMATION - Disclosed is a rotor information estimation system including a resolver configured to measure a rotor location of a motor; a proportional-integral observer based on the motor and configured to estimate the rotor location of the motor; and an error calculator configured to calculate an error of the rotor location measured by the resolver using the rotor location estimated by the proportional-integral observer. The proportional-integral observer may estimate rotor information of the motor by performing an operation on the calculated error based on a characteristic of the motor. | 2016-05-12 |
20160134214 | DRIVE DEVICE - A drive device that includes an alternating-current rotary electric machine in which currents of a plurality of phases flow; an inverter that includes switching element units for respective phases corresponding to the respective phases, and that is connected between a direct-current power supply and the alternating-current rotary electric machine and performs conversion between a direct current and an alternating current; and shunt resistors that detect currents flowing in the respective switching element units for the corresponding phases between the direct-current power supply and the switching element units for the respective phases | 2016-05-12 |
20160134215 | PHASE CURRENT DETECTION SYSTEM - A motor control system includes an inverter and a plurality of current sensors each positioned in-line between the inverter and a phase coil of the motor. Each current sensor measures the current provided to each phase coil of the motor and provides a signal indicative of each phase current to a controller. In some embodiments, the currents sensors are provided as one or more current sense integrated circuits. A protection circuit protects the current sense integrated circuit from ground bounce by coupling a diode and an opposite facing Zener diode in series between the power supply pin and the ground pin of the integrated circuit. | 2016-05-12 |
20160134216 | Circuits and Methods of Determining Position and Velocity of a Rotor - A motor controller includes a square wave voltage generator and adding circuitry for adding the square wave voltage to a first drive voltage that is connectable to the stator windings of a motor. A current monitor for monitoring the input current to the motor as a result of the square wave voltage. A device for determining the position of the rotor based on the input current. | 2016-05-12 |
20160134217 | MOTOR, MOTOR SYSTEM, AND DETECTION METHOD OF MECHANICAL ANGLE OF MOTOR - A motor includes a stator and a rotor that is arranged opposite to the stator through a predetermined air gap. The stator is such that a plurality of coils are wound around respective slots for each of a plurality of phases. In the stator, the number of turns of one of the plurality of coils is different from those of the others for each of the phases. In the rotor, among a plurality of magnetic poles formed of a plurality of permanent magnets arranged in a circumferential direction of a core, a magnetoresistance of at least one magnetic pole is different from those of the others. | 2016-05-12 |
20160134218 | AUTOMATIC SUPPRESSION DEVICE FOR CYCLIC DISTURBANCE - In torque pulsation suppressing control in apparatus using battery as main power source, with feedforward table, there arises compensating table error due to voltage fluctuation by battery internal resistance, depending on load power. | 2016-05-12 |
20160134219 | APPARATUS FOR CONTROLLING INVERTER - An inverter controller is provided. The controller according to an exemplary embodiment of the present disclosure generates a compensation voltage to compensate an inverter command voltage using motor torque current and motor information, and apply the compensation voltage to the command voltage. | 2016-05-12 |
20160134220 | Modular Multi-Phase Electric Machine - A multi-phase electric motor is proposed that comprises a rotor and a stator. The rotor has a number of magnets directed towards the stator and the stator includes a plurality of phase windings directed towards the magnets. The phase windings are connected to control units that are adapted to selectively apply a current to the phase windings to induce an electromagnetic force which acts upon the magnets to effect a rotation of the rotor. The motor comprises at least two control units, each being configured to control the supply of current to three phase windings such that a different phase current is supplied to each of the three phase windings with a phase shift between said different phase currents being 120°, and wherein no two control units utilise the same current phase. By distributing current over at least six phases and utilising two or more control units operating as simple 3-phase motors, low voltage operation is enabled without the associated disadvantages of high winding currents, while control is simplified over conventional systems. | 2016-05-12 |
20160134221 | INVERTER APPARATUS - An inverter apparatus that includes an inverter that is interposed between an AC rotary electric machine and both a DC power supply and a smoothing capacitor and that includes a plurality of switching elements; a controller that controls driving of the plurality of switching elements; and a current sensor that detects a current flowing through a wire connecting the DC power supply and the inverter together, wherein the controller determines whether or not to stop driving of all of the plurality of switching elements based on the current detected by the current sensor while the AC rotary electric machine is caused to perform a regenerative operation of generating power. | 2016-05-12 |
20160134222 | Solar A/C Direct Motor Drive - An electrical device comprising: a high voltage DC power storage system; a variable frequency drive comprising DC terminals, a variable frequency inverter, and a variable drive output, wherein said high voltage DC power source is direct fed to said DC terminals; and an AC motor connected to said variable drive output. | 2016-05-12 |
20160134223 | MOTOR CONTROL METHOD AND MOTOR CONTROL DEVICE - A system has an acceleration region SU and a deceleration region SD between operation start and end positions of a wiper arm. In the acceleration region and the deceleration region, an addition amount and a subtraction amount are calculated, respectively, based on a difference between a maximum rotation speed and a current rotation speed to update a target rotation speed. The addition amount is larger than the subtraction amount, and a constant speed region CV is between the acceleration region SU and the deceleration region SD. When a change amount of an operation angle of the wiper arm does not exceed the constant speed region CV, the operation angle change amount is subtracted from the constant speed region. Further, when the operation angle change amount exceeds the constant speed region CV, the target rotation speed is updated by the same change amount. | 2016-05-12 |
20160134224 | CLEANING AND MOTOR HEATING ELECTROMAGNETIC MOTOR CONTROL SWITCHING - One embodiment describes a switching device system, which includes a first single pole switching device that selectively connects and disconnects a first phase of electric power to a first winding of a three phase motor; a second single switching device that selectively connects and disconnects a second phase of electric power to a second winding of the three phase motor; in which the first and second single pole switching devices control temperature of the motor by, at a first time, connecting the first phase and the second phase electric power to the motor. | 2016-05-12 |
20160134225 | MOTOR CONTROL DEVICE - A coil temperature estimation unit | 2016-05-12 |
20160134226 | CONTROL DEVICE FOR ON-VEHICLE ELECTRIC COMPRESSOR - A control device for an on-vehicle electric compressor controls and drives an electric motor arranged in the on-vehicle electric compressor. The control device includes a temperature acquisition unit, a current detector, a threshold current value setting unit, and a motor current controller. The temperature acquisition unit acquires a temperature of the control device. The current detector detects a motor current, which is current that flows through the electric motor. The threshold current value setting unit sets a threshold current value in accordance with the temperature of the control device acquired by the temperature acquisition unit. The motor current controller controls the motor current based on a detection result of the current detector so that the motor current becomes less than or equal to the threshold current value. | 2016-05-12 |
20160134227 | MOTOR CONTROL DEVICE THAT DETECTS OVERLOAD - A motor control device includes a load torque estimation unit configured to estimate a load torque applied to a motor, a torque comparison unit configured to compare the load torque with a reference torque, a time measurement unit configured to measure a time span during which the load torque is higher than the reference torque, a time comparison unit configured to compare the time span with a reference time, and a decision unit configured to decide that the motor is subjected to an excessive load when the time span exceeds the reference time. | 2016-05-12 |
20160134228 | A PHOTOVOTAIC ARRAY WITH FLOATING RAFT FOUNDATIONS - A photovoltaic array with floating raft foundations comprising at least three photovoltaic integrated boards; the area of the photovoltaic array larger than 10 square meters; at least two photovoltaic integrated boards in contact with the ground. Length of at least three photovoltaic integrated boards is greater than three meters. The photovoltaic array with floating rafts foundations is a whole system, which can significantly reduce the use of the traditional foundation, save construction time, and reduce system cost. | 2016-05-12 |
20160134229 | WATER RESISTANT ROOF ASSEMBLY STRUCTURE INTEGRATED WITH SOLAR PANELS - A water resistant roof assembly structure integrated with solar panels, for constructing a roof of a building, includes multiple support units arranged at a distance from one another, multiple solar modules disposed across every two adjacent support units, and multiple clamping units. Each support unit includes two carrying sections, a connecting section and two water discharging sections. Each water discharging section includes a valley portion adjacent to the carrying section, and a peak portion away from and having a height as the carrying section. Two sides of each solar module are respectively leaned against the carrying section and the water discharging section of one of the support units. A water discharging channel is formed between the solar module and the water discharging section to limit rainwater to flow towards two sides of the building. Each clamping unit includes a fixing portion, two extension portions and two pressing portions. | 2016-05-12 |
20160134230 | Roof Attachment Flashing Assembly - The present invention relates to a novel and improved roof flashing assembly for use in supporting hardware needed to install solar panel arrays on shingle roofs. The assembly is both easy to install and provides an improved watertight seal at the location where the assembly is secured to the rafters of the roof over the state of the art. | 2016-05-12 |
20160134231 | Plastic Photovoltaic Module Frame and Rack, and Composition for Making the Same - Photovoltaic or solar module frames, racks, or frame or rack components are made from a composition comprising (A) a thermoplastic polymer, particularly a thermoplastic polyolefin, (B) a reinforcing element, particularly glass fiber, (C) a non-halogen containing, intumescent flame retardant, (D) an impact-modifier, particularly a polyolefin elastomer, (E) a coupling agent, and, optionally, (F) one or more additives such as an antioxidant, UV-stabilizer, etc. These frames provide for easy assembly without the need for screws, bolts or other metal fasteners. | 2016-05-12 |
20160134232 | Method and Apparatus for Detecting, Regenerating and/or Preventing Defects in a Solar Panel Installation - The invention provides a method for detecting, regenerating and/or preventing defects in solar panels of a solar panel installation. In this method, a regeneration voltage is applied between the supporting structure in which the solar panels are mounted, and the negative pole of the solar panels, the positive pole of the solar panels, or both poles of the solar panels, being short-circuited. Additionally, the invention also provides an apparatus for performing said method, and a solar panel installation comprising said apparatus. | 2016-05-12 |
20160134233 | MODULAR PHOTOVOLTAIC POWER SUPPLY ASSEMBLY - An apparatus, device, and system for generating an amount of output power in response to a direct current (DC) power input includes a configurable power supply, which may be electrically coupled to the DC power input. The configurable power supply is selectively configurable between multiple circuit topologies to generate various DC power outputs and/or and AC power output. The system may also include one or more DC power electronic accessories, such as DC-to-DC power converters, and/or one or more AC power electronic accessories such as DC-to-AC power converters. The power electronic accessories are couplable to the configurable power supply to receive the corresponding DC or AC power output of the configurable power supply. | 2016-05-12 |
20160134234 | Electrically Isolated Heat Dissipating Junction Box - A junction box used for making electrical connections to a photovoltaic panel. The junction box has two chambers including a first chamber and a second chamber and a wall common to and separating both chambers. The wall may be adapted to have an electrical connection therethrough. The two lids are adapted to seal respectively the two chambers. The two lids are on opposite sides of the junction box relative to the photovoltaic panel. The two lids may be attachable using different sealing processes to a different level of hermeticity. The first chamber may be adapted to receive a circuit board for electrical power conversion. The junction box may include supports for mounting a printed circuit board in the first chamber. The second chamber is configured for electrical connection to the photovoltaic panel. A metal heat sink may be bonded inside the first chamber. | 2016-05-12 |
20160134235 | PHOTOVOLTAIC MODULE WITH INTEGRATED COOLING AND TRACKING SYSTEM - Photovoltaic (PV) power generation systems and methods are disclosed, wherein the system includes a PV module having an integrated frame structure, PV cell rows, solar tracking system, and cooling system. A protective cover may be included with the frame structure to form an enclosed area in which the PC cell rows, cooling system, and tracking system are placed, thereby protecting them from the elements. The cooling system may be a water circulation based cooling system, and the integrated frame of the PV module may be directly mounted on a foundation consisting of a water tank. The water tank may serve as the storage unit for the water cooling system, with the water from the tank being pumped through the cooling profiles at each cell row in the frame and then returned to the tank. Other mounting structures may also form the foundation for the integrated frame. | 2016-05-12 |
20160134236 | Method And System For Frequency Generation - Methods and systems for frequency generation may comprise a circuit with a first input coupled to receive a first satellite signal at a first satellite downlink frequency, a second input coupled to receive a second satellite signal at a second satellite downlink frequency, and a first analog-to-digital converter (ADC) having an input coupled to receive the first satellite signal and an output. The first ADC may be configured to create a first digital output signal representing the first satellite signal. A second ADC having an input coupled to receive the second satellite signal and an output may be configured to create a second digital output representing the second satellite signal. The circuit may comprise a dielectric resonator oscillator having an output and a clock generator circuit having an input coupled to the oscillator output and configured to output one or more clocks used by the first and second ADCs. | 2016-05-12 |
20160134237 | LOW POWER OSCILLATOR SYSTEM - In a first aspect, an oscillator is disclosed. The oscillator comprises a digital circuit; and at least one Microelectromechanical system (MEMS) resonator. The oscillator includes a non-volatile memory, the non-volatile memory (NVM) storing a frequency value related to a resonant frequency of the at least one MEMS resonator. The digital circuit utilizes the frequency value stored in the NVM to provide a measure of real time from the MEMS resonator. In a second aspect, a system is disclosed. The system includes a processor and at least one Microelectromechanical system (MEMS) resonator operating at first frequency. The system also includes a memory. The memory storing a frequency value related to a resonant frequency of the at least one MEMS resonator. The frequency value is measured by an outside source. The processor utilizes the frequency value stored in the memory to provide a measure of real time from the MEMS resonator. | 2016-05-12 |
20160134238 | Class AB Amplifier With Programmable Quiescent Current - A Class AB amplifier has a control stage and a push-pull stage. The control stage has a programmable resistor that allows a floating constant voltage to applied to the push-pull stage such that the quiescent current of the amplifier is relatively low. The configuration enables the amplifier to operate properly at relatively low power-supply voltage levels. The amplifier can be configured as the output driver for an operational amplifier (op-amp) with a Miller compensation configuration that replaces the conventional Miller compensation resistor with a transistor that is part of the op-amp. | 2016-05-12 |
20160134239 | CLASS D POWER DRIVER PERIPHERAL - A Class D peripheral is integrated with a microcontroller as a general purpose driver for providing many different Class D power applications such as motor and solenoid control, audio amplification, etc. Use of a simple triangle waveform (saw tooth) oscillator normally used for detecting changes in capacitance values in combination with a voltage comparator provides inexpensive generation of pulse width modulation (PWM) suitable for a wide range of Class D power applications. Selection of either an external audio input or an internal processor controlled analog reference provides for flexible adaptability to any Class D power driver requirement. | 2016-05-12 |
20160134240 | METHOD AND CIRCUITRY FOR CMOS TRANSCONDUCTOR LINEARIZATION - Third order distortion is reduced in a CMOS transconductor circuit that includes a first N-channel transistor and a first P-channel transistor, gates of the first N-channel transistor and the first P-channel transistor being coupled to receive an input signal. Drains of the first N-channel transistor and first P-channel transistor are coupled to an output conductor. A first degeneration resistor is coupled between a source of the first P-channel transistor and a first supply voltage and a second degeneration resistor is coupled between a source of the first N-channel transistor and a second supply voltage. A first low impedance bypass circuit is coupled between the sources of the first P-channel transistor and the first N-channel transistor. A low impedance bypass circuit re-circulates second order distortion current that is induced by second-order distortion in drain currents of the first P-channel transistor and the first N-channel transistor, through the first N-channel transistor and first P-channel transistor. | 2016-05-12 |
20160134241 | POWER AMPLIFIER - A power amplifier has improved power added efficiency at high output power. The power amplifier includes: a first transistor for amplifying an input signal input to the base thereof and outputting the amplified signal from the collector thereof; a second transistor with power-supply voltage applied to the collector thereof to supply bias voltage or bias current from the emitter thereof to the base of the first transistor; a third transistor whose collector is connected to the collector of the first transistor to amplify the input signal input to the base thereof and output the amplified signal from a collector thereof; a fourth transistor whose base and collector are connected to supply bias from the emitter thereof to the base of the third transistor; and a first resistor with bias control voltage applied to one end thereof and the other end connected to the bases of the second and fourth transistors. | 2016-05-12 |
20160134242 | POWER AMPLIFIER - The present disclosure is to improve the power added efficiency of a power amplifier at high output power. The power amplifier includes: a first capacitor with a radio frequency signal input to one end thereof; a first transistor whose base is connected to the other end of the first capacitor to amplify the radio frequency signal; a bias circuit for supplying bias to the base of the first transistor; and a second capacitor with one end connected to the base of the first transistor and the other end connected to the emitter of the first transistor. | 2016-05-12 |
20160134243 | BIAS-BOOSTING CIRCUIT WITH DUAL CURRENT MIRRORS FOR RF POWER AMPLIFIER - An RF power amplifier circuit has a signal input and a signal output. An input matching network connected to the signal input, and an output matching network is connected to the signal output. There is a power amplifier with an input connected to the input matching network, and an output connected to the output matching network. A bias boosting circuit is connected to the input of the power amplifier, and the bias boosting circuit comprises a cascode current mirror that is defined by a first cascode circuit and a second cascode circuit, and a biasing transistor that is connected to an output of the cascode current mirror. The biasing transistor, together with the power amplifier, defines a current mirror. The bias boosting circuit is thus a dual current mirror circuit that boosts the bias of the power amplifier. | 2016-05-12 |
20160134244 | HIGH-FREQUENCY AMPLIFIER - A high-frequency module, includes a circuit substrate, a first transistor having a source connected to ground; a second transistor forming a cascode circuit with the first transistor; a series circuit connected between a gate of the second transistor and the ground, the series circuit being formed by a first resistive element and a series resonant circuit connected in series with each other; and a second resistive element connected in parallel to the series circuit. The first transistor, the second transistor, the series circuit and the second resistive element are arranged on the circuit substrate. | 2016-05-12 |
20160134245 | BIAS CIRCUIT AND POWER AMPLIFIER HAVING THE SAME - A bias circuit providing different bias voltages depending on a power mode through a simple circuit, and a power amplifier having the same are provided. The bias circuit and the power amplifier include a bias setting unit configured to vary a voltage level of a control signal controlling a bias voltage according to an operation of a first transistor being switched-off in a high power mode and switched-on in a low power mode. A bias supplying unit includes a bias supplying transistor switched based on the control signal, to supply the bias voltage having a voltage level according to a switching operation of the bias supplying transistor. | 2016-05-12 |
20160134246 | APPARATUS AND METHOD FOR HIGH-EFFICIENCY ENVELOPE AMPLIFIER USING ADJUSTMENT OF SWITCH CURRENT - The present invention provides an apparatus and method for an envelope amplifier using adjustment of a switch current, in order to maximize the efficiency of the envelope amplifier at the entire sections of envelope output power. The apparatus and method can extend the battery lifetime of portable wireless devices such as smart phones or mobile phones or application devices such as notebook computers, which use a battery as a power supply. | 2016-05-12 |
20160134247 | AUTO-ZERO CIRCUIT OF OPERATIONAL AMPLIFIER - An auto-zero circuit of an operational amplifier is disclosed, and the auto-zero circuit has: a micro-control unit and a digital potentiometer; the micro-control unit is used to obtain a voltage value of an offset voltage of the output end when there is no input in the operational amplifier, and generates a control signal which causes the voltage value of the offset voltage to be smaller than a first threshold value according to the voltage value of the offset voltage; the digital potentiometer is used to adjust a resistance thereof according to the control signal. | 2016-05-12 |
20160134248 | DISTORTION COMPENSATION APPARATUS AND WIRELESS COMMUNICATION APPARATUS - Distortion is effectively reduced in a wide frequency band of an output signal from an amplifier. A distortion compensation apparatus includes: a distortion compensation processing section that performs a distortion compensation process on an input signal to the amplifier, based on a first amplifier model of the amplifier, and output a compensated signal; a signal generation section that receives the compensated signal and a first digital monitor signal, and generates a second digital monitor signal; and an estimation section that estimates the first amplifier model, based on the compensated signal and the second digital monitor signal. The first digital monitor signal is a signal generated by subjecting an analog monitor signal obtained by monitoring an output signal from the amplifier, to analog-to-digital conversion. A monitor band of the first digital monitor signal is narrower than a frequency band of the compensated signal. A frequency band of the second digital monitor signal is wider than the monitor band of the first digital monitor signal, and includes signal components obtained by restoring signal components outside the monitor band, among signal components included in the analog monitor signal. The signal generation section restores the signal components outside the monitor band among the signal components included in the analog monitor signal, based on the compensated signal and the first digital monitor signal. | 2016-05-12 |
20160134249 | LAMINATE RF CHOKE FOR FLIP-CHIP POWER AMPLIFIER - A circuit includes a flip-chip die and a laminate substrate. The flip-chip die includes a first bump and a second bump. A first metal layer is disposed on the laminate substrate. The first metal layer includes a first transmission line having a plurality of segments forming a first spiral inductor. A first end of the first transmission line is electrically coupled to the first bump. A second end of the first transmission line is electrically coupled to a first power supply pin. | 2016-05-12 |
20160134250 | SEMICONDUCTOR MEMORY WITH THRESHOLD CURRENT SETTING CIRCUIT - A semiconductor device includes a first trans-impedance amplifier, a second trans-impedance amplifier, a peak hold circuit, a comparator and a threshold current setting circuit. The first trans-impedance amplifier converts a first current signal generated by a first photodiode, into which an optical signal is input, into a first voltage signal. The second trans-impedance amplifier converts a second current signal generated by a second photodiode, to which an optical signal is blocked, into a second voltage signal. The peak hold circuit holds the peak value of the first voltage signal. The comparator outputs a pulse on the basis of the first and second voltage signals. The threshold current setting circuit draws out a threshold current. | 2016-05-12 |
20160134251 | DUAL MODE POWER AMPLIFIER CONTROL INTERFACE WITH A MULTI-MODE GENERAL PURPOSE INPUT/OUTPUT INTERFACE - In accordance with some embodiments, the present disclosure relates to a dual mode control interface that can be used to provide both a radio frequency front end (RFFE) serial interface and a two-mode general purpose input/output (GPIO) interface within a single digital control interface die. In certain embodiments, the dual mode control interface, or digital control interface, can communicate with a power amplifier. Further, the dual mode control interface can be used to set the mode of the power amplifier. | 2016-05-12 |
20160134252 | METHOD AND BALUN FOR TRAPPING RF CURRENT ON A TRANSMISSION LINE AFTER INSTALLATION - Apparatus and method for a radially attachable RF trap attached from a side to a shielded RF cable. In some embodiments, the RF trap creates a high impedance on the outer shield of the RF cable at a frequency of RF signals carried on at least one inner conductor of the cable. In some embodiments, an RF-trap apparatus for blocking stray signals on a shielded RF cable that has a peripheral shield conductor and a inner conductor for carrying RF signals includes: a case; an LC circuit having a resonance frequency equal to RF signals carried on the inner conductor; projections that pierce and connect the LC circuit to the shield conductor; and an attachment device that holds the case to the cable with the LC circuit electrically connected to the shield conductor of the shielded RF cable. | 2016-05-12 |
20160134253 | OPERATION FREQUENCY BAND CUSTOMIZABLE AND FREQUENCY TUNABLE FILTERS WITH EBG SUBSTRATES - A cavity resonator or filter constructed on electromagnetic bandgap (EBG) substrate is provided that includes an external controlling assemble having a plurality of components configured to change a working frequency of the cavity resonator or filter. A dual-band bandpass filter is provided that includes two or more single band filters on a single EBG substrate and an external controlling assemble having a plurality of components configured to change a working frequency of the cavity resonator or filter. | 2016-05-12 |
20160134254 | PARAMETER SCANNED TUNABLE ANTENNA - Generally discussed herein are techniques, software, apparatuses, and systems configured for tuning an antenna. In one or more embodiments, a method can include sending, by processing circuitry, one or more signals to an antenna tuner to sweep the tuner through a plurality of tuner states, determining a plurality of power values, each power value corresponding to a signal received from an antenna and each power value corresponding to the tuner being in a state of the plurality of tuner states, and sending one or more signals to the tuner to set the tuner to a tuner state of the plurality of tuner states, the tuner state determined using the determined powers. | 2016-05-12 |
20160134255 | SURFACE ACOUSTIC WAVE DEVICE AND APPARATUS INCLUDING THE SAME - A surface acoustic wave device includes: a piezoelectric substrate; an interdigital transducer disposed on the piezoelectric substrate, the interdigital transducer being configured to transduce a driving signal into a surface acoustic wave, and transduce a reflected surface acoustic wave into a response signal; a reflector arranged on the piezoelectric substrate and configured to reflect the surface acoustic wave input from the interdigital transducer; a first antenna disposed on the piezoelectric substrate, the first antenna extending radially from the interdigital transducer, and the first antenna being configured to receive the driving signal and transmit the response signal; and a second antenna disposed on the piezoelectric substrate, the second antenna extending radially from the interdigital transducer to be asymmetrical with respect to the first antenna, and the second antenna being configured to receive the driving signal and transmit the response signal. | 2016-05-12 |
20160134256 | SURFACE ACOUSTIC WAVE DEVICE HAVING SELECTABLE ELECTRODE ELEMENTS - Described embodiments include a surface acoustic wave device, method, and apparatus. The device includes a piezoelectric substrate and a configurable electrode assembly. The configurable electrode assembly includes a plurality of spaced-apart elongated electrode elements electromechanically coupled with the piezoelectric substrate. The assembly includes a first signal bus crossing each of the plurality of electrode elements and electrically isolated therefrom. The assembly includes a first matrix of addressable switches. Each addressable switch of the first matrix configured to electrically couple a respective electrode element of the plurality of electrode elements with the first signal bus. The assembly includes a second signal bus crossing each of the plurality of electrode elements and electrically isolated therefrom. The assembly includes a second matrix of addressable switches. Each addressable switch of the second matrix configured to electrically couple a respective electrode element of the plurality of electrode elements with the second signal bus. | 2016-05-12 |
20160134257 | SURFACE ACOUSTIC WAVE DEVICE HAVING END-TO-END COMBINABLE SELECTABLE ELECTRODE SUB-ELEMENTS - A described surface acoustic wave device includes a piezoelectric substrate and a configurable electrode assembly. The assembly includes: an array of N rows of M electrically isolated elongated electrode sub-elements arranged end-to-end in columns; a first signal bus proximate to the first row of the N rows; a first matrix of row addressable switches configured to electrically couple the first signal bus with a respective electrode sub-element of the first row of electrode sub-elements; a second signal bus proximate to the N | 2016-05-12 |
20160134258 | Switchable Filtering Circuit And The Operation Method Using The Same - The disclosure provides a switchable filtering circuit and the related operation method, in particular related to a filtering circuit which can be used for Bluetooth system and wireless local area network system. By using a first switch, a hybrid filtering circuit and a second switch, the received mode and transmitted mode between these two systems is realized. Moreover, the frequency responses and the bandwidth adjustments can be controlled according to the plurality of switchable resistors, the plurality of switchable capacitors and the shared and switchable resistors within the hybrid filter circuit. Moreover, the effects of high operated freedom of the circuit and the circuit size reduction can be achieved. | 2016-05-12 |
20160134259 | Digital Step Attenuator with Reduced Relative Phase Error - An apparatus for selectively providing attenuation with minimal relative phase error. A Digital Step Attenuator (DSA) is implemented on an integrated circuit (IC). Each cell of the DSA has a series compensation inductance that is introduced between an input to the cell and a resistor on the cell. The series compensation inductance allows the location of a pole present in the transfer function of the cell to be manipulated. By controlling the location of the pole in the transfer function of the DSA, the relative phase error of the cell can be controlled. In another disclosed embodiment, the capacitance of a shunt compensation capacitor is increased to manipulate a pole in the transfer function of a DSA cell. | 2016-05-12 |
20160134260 | RF IMPEDANCE MATCHING NETWORK - A control circuit for a impedance matching circuit having first and second capacitor arrays receives as input one or more RF parameters of the impedance matching circuit, and in response thereto: determines a first match configuration for the first capacitor array and a second match configuration for the second capacitor array to create an impedance match between a fixed RF source impedance and a variable RF load impedance, the first match configuration and the second match configuration being determined from one or more look-up tables and based upon the detected one or more RF parameters; and alters at least one of the first array configuration and the second array configuration to the first match configuration and the second match configuration, respectively, by controlling the on and off states of (a) each discrete capacitor of the first capacitor array and (b) each discrete capacitor of the second capacitor array. | 2016-05-12 |
20160134261 | SIGNAL PROCESSING APPARATUS, SIGNAL PROCESSING METHOD, AND SIGNAL PROCESSING SYSTEM - A signal processing apparatus includes: a filter; and a filter control circuit, wherein the filter control circuit is configured to: detect a power of signals output from the filter; determine one of a plurality of numerical ranges to which the power belongs; update a filter coefficient of the filter according to a determination result; count a number of the signals having the power of a first value or more; set an invalid area which becomes a target not to be determined for each of one or more boundaries between the plurality of numerical ranges when the number of the signals becomes a second value or more; and control a width of the invalid area based on the number of signals. | 2016-05-12 |
20160134262 | LOW-NOISE ARRANGEMENT FOR VERY-LARGE-SCALE INTEGRATION DIFFERENTIAL INPUT/OUTPUT STRUCTURES - Embodiments of the invention provide low-noise arrangements for very-large-scale integration (VLSI) differential input/output (I/O) structures (I/O pins, solder bumps, vias, etc.). Novel geometries are described for arranging differential pairs of I/O structures in perpendicular or near-perpendicular “quads.” The geometries effectively place one differential pair on or near the perpendicular bisector of its adjacent differential pair, such that field cancellation and differential reception can substantially eliminate noise without the need for added spacing or shields. By exploiting these effects, embodiments can suppress noise, independent of I/O structure spacing, and arbitrarily small spacings are permitted. Such arrangements can be extended into running chains, and even further into arrays of parallel chains. The parallel chains can be separated by supply structures (e.g., power supply bumps, or the like), and such supply structures can supply power to the I/O circuits of the IC, while also shielding adjacent chains from each other. | 2016-05-12 |
20160134263 | ASYMMETRIC HYSTERETIC CONTROLLERS - An asymmetric hysteretic controller comprises an analog comparator coupled with a fast slew rate DAC, or a digital comparator coupled with an ADC plus some digital control logic. The comparator, analog or digital, operates as a sequential windowed comparator having high and low limits. The sense parameter is compared to a high or a low limit and when the sense parameter reaches the selected high or low limit, the controlled device is turned off or on, respectively. When the hysteretic controller state comparison reversal occurs: (a) the comparator output may be blanked by the control logic, (b) the comparator polarity may be reversed by the control logic, (c) the control logic may command the other process limit to be selected for comparison with the sense parameter, and (d) then the comparator output may be re-enabled. | 2016-05-12 |
20160134264 | META-STABILITY PREVENTION FOR OSCILLATORS - In an integrated circuit, meta-stability prevention circuitry prevents an oscillator, such as a current-controlled oscillator having a ring of differential inverters, from being turned on, for example, during power up, until after the power-supply voltage is sufficiently high for the oscillator ring to achieve oscillation without going into a meta-stable state. In one implementation, a level detector monitors the power-supply voltage level and generates a logic signal indicating whether or not the power-supply voltage level is sufficiently high. That logic signal and a conventional chip-level power-down control signal are applied to logic circuitry that generates control signals for one or more switch transistors that selectively turn on and off the oscillator ring. | 2016-05-12 |
20160134265 | FLIP FLOP CIRCUIT - A flip-flop circuit includes a first latch, a second latch, and a trigger stage. The first latch is configured to set a first latch output signal based on a first latch input signal and a clock signal. The second latch is configured to set a second latch output signal based on a second latch input signal and the clock signal. The trigger stage is configured to generate the second latch input signal based on the first latch output signal. The trigger stage is configured to cause the second input signal to have different voltage swings based on the first latch output signal and the second latch output signal. | 2016-05-12 |
20160134266 | DIGITAL-TO-PHASE CONVERTER - Systems and methods for converting digital signals into clock phases are disclosed. An example digital-to-phase converter circuit receives a complementary in-phase and quadrature clock signals and produces four clock outputs at a phase controlled by a digital phase control input. The digital-to-phase converter uses first and second pre-driver modules to buffer the -phase and quadrature clock signals and produce corresponding buffered clock signals having controlled slew rates. Mixer modules produce the clock outputs by forming weighted combinations of the buffered clock signals. The weighting is determined based on the phase control input. The controlled slew rates of the buffered clock signals allow digital mixer module to provide accurate phase control. The digital-to-phase converter may also include an output buffer that compensates for nonlinearities in the relationship between the phases of the clock outputs and the phase control input. | 2016-05-12 |
20160134267 | SKEW ADJUSTMENT CIRCUIT AND SKEW ADJUSTMENT METHOD - A skew adjustment circuit comprises a phase adjustment circuit that adjusts a phase of a first input clock based on a predetermined phase control signal, and outputs it as an output clock, a logical circuit that performs a logical operation between signals that are input, an integral circuit that generates a predetermined voltage signal, based on a result of the logical operation by the logical circuit, a comparator that compares an electric potential of the predetermined voltage signal and an electric potential of a predetermined reference voltage signal, a first controller that generates the predetermined phase control signal based on a result of the comparison by the comparator, and a second controller that performs control for selecting a signal that is to be input to the logical circuit. The second controller, in a first mode, performs the control such that the output clock and a second input clock are selected. | 2016-05-12 |
20160134268 | PWM MODULATION DEVICE AND SOUND SIGNAL OUTPUT APPARATUS - A PWM modulation device includes: a PWM modulator which receives upper N bits of an (N+1)-bit output from a noise shaper; a rising/falling edge detector which receives a PWM output signal of the PWM modulator and detects a rising/falling edge; a delay circuit which receives the PWM output signal, delays the PWM output signal by a predetermined delay time and outputs a PWM output delay signal; an AND gate which receives the lower one bit output from the noise shaper and an output control signal of the rising/falling edge detector; and a selector which receives a signal obtained as a result of an AND operation by the AND gate for the output control signal and the lower one bit and selects one of the PWM output signal and the PWM output delay signal. | 2016-05-12 |
20160134269 | I/O MODULE - An input/output (I/O) module is configured to connect a controller and a field device. The I/O module includes a PWM (pulse width modulation) demodulator configured to demodulate a PWM signal that is input from the controller, a current source configured to output a current based on an output signal of the PWM demodulator to the field device, a resistance connected in line with the current source, and a feedback circuit configured to feed back an output current of the current source to the PWM demodulator via the controller. | 2016-05-12 |
20160134270 | RADIO-FREQUENCY DEVICES WITH GATE NODE VOLTAGE COMPENSATION - Radio-frequency (RF) devices are disclosed having transistor gate voltage compensation to provide improved switching performance. RF devices, such as switches, include a plurality of field-effect transistors (FETs) connected in series between first and second nodes, each FET having a gate. A compensation network including a coupling circuit couples the gates of each pair of neighboring FETs. | 2016-05-12 |
20160134271 | BUFFER CIRCUIT - It is an object of the present invention to provide a buffer circuit that reduces a reverse voltage applied to transistors being a complementary pair during turn-on and turn-off. A buffer circuit is a buffer circuit that turns on and turns off a switching element and includes a drive-side element that has an end connected to a base of a drive transistor and a sink-side element that has an end connected to a base of a sink transistor. The drive-side element and the sink-side element are respectively a drive-side diode and a sink-side diode, or a drive-side capacitor and a sink-side capacitor. | 2016-05-12 |