47th week of 2014 patent applcation highlights part 20 |
Patent application number | Title | Published |
20140339989 | Method for operating a lamp - The invention relates to a method for operating a lamp comprising a first light for direct lighting and a second light for indirect lighting of an object, as well as a controller controlling the first and second light emitting means separately, and at least one light sensor is mounted on the lamp and connected to the controller for detecting the amount of light in the area, including any extraneous light. The controller has means to subtract the indirect amount of light reaching the light sensor from the total amount of light coming from the second light emitting means as detected by the light sensor, and the amount of direct light produced by the first light emitting means reaching the light sensor, as well as any existing extraneous light reaching the light sensor, in order to control the lamp, in particular by switching it on or off. | 2014-11-20 |
20140339990 | LIGHT-EMITTING DIODE LIGHTING DEVICE HAVING MULTIPLE DRIVING STAGES - An LED lighting device includes multiple driving stages. A first driving stage includes a first luminescent device driven by a first current and a first current controller coupled in parallel with the first luminescent device. The first current controller is configured to conduct a second current according to a voltage established across the first current controller and regulate the second current so that a sum of the first current and the second current does not exceed a first value. The second driving stage includes a second luminescent device driven by a third current and a second current controller coupled in series to the second luminescent device. The second current controller is configured to conduct a fourth current according to a voltage established across the second current controller and regulate the fourth current so that a sum of the third current and the fourth current does not exceed a second value. | 2014-11-20 |
20140339991 | BACKLIGHT DRIVE CIRCUIT WITH DUAL BOOST CIRCUITS - The present invention provides an LED backlight drive circuit, which includes a first power supply module, an electrical inductor, a rectifier diode, a MOS transistor, an electrolytic capacitor, an LED light string, a voltage division module, a voltage comparator, a second power supply module, and an LED constant-current drive chip. The LED backlight drive circuit is arranged to include a voltage comparator in an external circuit of the LED constant-current drive chip to detect output voltage of the drive circuit so that high voltage, the voltage comparator is caused to supply a low voltage level to forcibly pull down a PWM dimming signal or an ENA enabling signal of the LED constant-current drive chip to achieve an over-voltage protection function and also enable removal of over-voltage protection module from a conventional LED constant-current drive chip. | 2014-11-20 |
20140339992 | LED Device with Shared Voltage-Limiting Unit and Individual Equalizing Resistance - The present invention relates to a LED device with shared voltage-limiting unit and individual voltage-equalizing resistance, wherein two ends of a LED set constituted by a plurality of same-polarity series LEDs are in parallel connected with a shared voltage-limiting unit, and two ends of individual LED are respectively in parallel connected with an voltage-equalizing resistance for providing an overvoltage protection to the LEDs. | 2014-11-20 |
20140339993 | LIGHT EMITTING DIODE DRIVING APPARATUS AND LIGHT EMITTING DIODE BACKLIGHT SYSTEM USING THE SAME - A light emitting diode (LED) driving apparatus and an LED backlight system using the same are provided. The backlight control circuit suitable for driving an LED string includes a complex function pin, a driving circuit and a backlight control circuit. The backlight control circuit includes a control current generating unit, a first current comparing unit and a second current comparing unit. The control current generating unit receives a dimming control signal and an enable control signal from the complex function pin to generate a control current accordingly. The first and the second current comparing units are respectively configured to compare the control current with first and second predetermined currents to respectively generate a first and a second control signals. The driving circuit determines to be turned on or off according to the second control signal, and further adjusts a luminance of the LED string according to the first control signal. | 2014-11-20 |
20140339994 | LIGHTING MODULE - A lighting module includes a power line for receiving a power supply current and a ground line, a segmentation point for cutting the lighting module into two parts, a first set of light sources upstream of the segmentation point, a second set of light sources downstream of the segmentation point, wherein the first and second sets of light sources are connected in series, and a resistive element connected to the intermediate point between the first and the second set of light sources, and the ground line, which is configured in such a way that: when the lighting module has not been cut, the resistive element has a resistance which is greater than the resistance of the portion of the lighting module downstream of the segmentation point, and when the lighting module has been cut, the resistive element has a resistance which is less than the resistance thereof. | 2014-11-20 |
20140339995 | SINGLE PIN CONTROL OF BIPOLAR JUNCTION TRANSISTOR (BJT)-BASED POWER STAGE - A power stage for light emitting diode (LED)-based light bulbs may include a bipolar junction transistor (BJT). The base of BJT switch may be biased externally and the operation of the BJT may be through a single pin to the emitter of the BJT. A controller integrated circuit (IC) may control the power stage through the main BJT's emitter pin in an emitter-controlled BJT-based power stage. The emitter-controlled BJT-based power stage may replace the conventional buck-boost power stage topology. For example, the controller may activate and deactivate a switch coupling the BJT's emitter to ground. A power supply for the controller IC may be charged from a reverse recovery of charge from the BJT, and the reverse recovery controlled by the controller IC. | 2014-11-20 |
20140339996 | BALLAST AND BALLAST CONTROL METHOD AND APPARATUS, FOR EXAMPLE ANTI-ARCING CONTROL FOR ELECTRONIC BALLAST - A technique for providing control for an electronic ballast by responding to the current in the common bus (DC power rail) betweeen a boost circuit such as a power factor circuit (PFC) and an output (such as a high frequency (HF) inverter) circuit, and adjusting, changing or shutting down either the power factor control circuit or the inverter circuit when the power going into the inverter circuit is above a threshold. Power going into the inverter circuit may be measured by a resistor, and temperature compensation may be provided. Excess power indicative of a spark is detected in such a way that normal starting of a lamp load connected to the ballast occurs without triggering the change/shutdown but an external arc will trigger the change/shutdown. For example, the output circuit may be shut down and the external arc curtailed within 200 msecs. | 2014-11-20 |
20140339997 | LIGHT EMITTING ELEMENT DRIVE APPARATUS AND PORTABLE APPARATUS USING SAME - A light emitting element drive apparatus capable of outputting the lowest voltage satisfying drive conditions and having high light emitting efficiency and low power loss, and a portable apparatus using the same, comprising an LED drive apparatus to which LEDs of different drive voltages required for emitting light are connected in parallel and driving one or more LEDs, wherein the LED drive apparatus | 2014-11-20 |
20140339998 | LIGHT EMITTING DIODE MODULE - A light emitting diode module includes a light emitting unit and a light emitting diode circuit. The light emitting diode circuit includes four transistors and a storage capacitor. A first transistor includes a first end for receiving a data signal, and a control end. The storage capacitor has a first end coupled to a second end of the first transistor. A second transistor has a first end coupled to a first voltage source, and a control end. A third transistor has a first end coupled to a second end of the second transistor, and a control end coupled to a second end of the storage capacitor. A fourth transistor has a first end coupled to the second end of the storage capacitor, a control end, and a second end coupled to the second end of the second transistor. | 2014-11-20 |
20140339999 | CHARGE PUMP-BASED DRIVE CIRCUITRY FOR BIPOLAR JUNCTION TRANSISTOR (BJT)-BASED POWER SUPPLY - A bipolar junction transistor (BJT) may be used to generate a supply voltage for operating a controller, such as a lighting controller for a LED-based light bulb. A base of the BJT may receive current generated from the supply voltage to control operation of the BJT. Although the base of the BJT would be at a lower voltage than the emitter, a base drive circuit may be coupled between the emitter and the base of the BJT to increase the voltage. As one example, the base drive circuit may be a charge pump. In another example, the BJT may function as its own charge pump. In yet another example, a positive and a negative base current of the BJT may be independently controlled to regulate an output supply voltage V | 2014-11-20 |
20140340000 | BACKLIGHT DRIVING CIRCUIT, LCD DEVICE, AND METHOD FOR DRIVING THE BACKLIGHT DRIVING CIRCUIT - A backlight driving circuit includes a constant current driving chip, a power module, and a light emitting diode (LED) lightbar coupled with the power module. The constant current driving chip includes a control module that controls switching frequency of the power module, and an adjusting module that adjusts duty cycle of effective current flowing through the LED lightbar. The control module includes a frequency pin used to set the switching frequency of the power module. An external pulse-width modulation (PWM) dimming signal is sent to the adjusting module of the constant current driving chip. The backlight driving circuit further includes a detection module that detects duty cycle of the PWM dimming signal, and a monitor module coupled with the detection module of the backlight driving circuit. | 2014-11-20 |
20140340001 | ARRANGEMENT FOR DRIVING AND DRIVE METHOD FOR A PIEZOELECTRIC ACTUATOR - A method is disclosed for driving a piezoelectric actuator with a piezoelectric stack, which is operated as an actuating element of an injector. The piezoelectric stack is polarized during production by a polarization process initially with a first field strength, which results in a first length of the piezoelectric stack. According to the method, the piezoelectric stack is driven during operation at a second field strength, which is smaller than the first field strength, wherein a setpoint length for the piezoelectric stack is defined depending on the second field strength. In addition, a change in length caused by depolarization from the setpoint length of the piezoelectric stack is monitored. Then, when a predetermined threshold value for the change in length is reached, the piezoelectric stack is operated at a third field strength until the setpoint length for said piezoelectric stack is reached. | 2014-11-20 |
20140340002 | DRIVING CONTROL APPARATUS AND DRIVING CONTROL METHOD FOR ULTRASONIC MOTOR - To keep velocities of a plurality of ultrasonic motors equal; and to suppress the deterioration of the performance, the occurrence of noise and the decrease of the life have been unavoidable problems, a first drive signal and/or a second drive signal are values that are corrected by values obtained from characteristics of a first ultrasonic motor, which are detected by making a second ultrasonic motor generate a standing wave and making the first ultrasonic motor generate a traveling wave, and characteristics of the second ultrasonic motor, which are detected by making the first ultrasonic motor generate a standing wave and making the second ultrasonic motor generate a traveling wave. | 2014-11-20 |
20140340003 | SYSTEM AND METHOD FOR CONTROLLING THE STROKE AND OPERATION AT RESONANCE FREQUENCY OF A RESONANT LINEAR MOTOR - Linear compressor comprising a resonant linear motor ( | 2014-11-20 |
20140340004 | COMBINATION CHARGER AND MOTIVE POWER DEVICE - A combined battery charger and motor driver circuit assembly includes a rechargeable battery, a traction motor configured to accept a pulse-width-modulated (PWM) drive, a PNP transistor array, a charging source of chopped and rectified DC, and a control circuit configured to apply a discrete PWM drive signal to the gate of each transistor in the PNP transistor array. | 2014-11-20 |
20140340005 | Power Conversion Device - In a system for driving an electric motor by an engine generator, there is a possibility that the effects of harmonics and DC voltage fluctuations of a power converter cause shaft oscillation to increase due to a phenomenon in which current pulsations caused by voltage disturbances at a d-axis and a q-axis are strengthened each other and thus oscillation and d-axis current are increased under the effect of interference between the d-axis and the q-axis. In an engine generator system, a power converter ( | 2014-11-20 |
20140340006 | Position Sensorless Step-Wise Freewheeling Control Method for Switched Reluctance Motor - A position sensorless step-wise freewheeling control method for a switched reluctance motor having dual switched-mode power converters for each phase doesn't require any additional external hardware, any rotor-position sensor, or storage of flux linkage data of the motor. After the upper and lower tubes of the main switch are switched off, and the phase of the switched reluctance motor enters into a negative voltage forced freewheeling state, the phase current is detected. When the phase current falls to a preset threshold, one of the upper or lower tubes is switched on and the phase enters into a zero voltage natural freewheeling state. When the phase current reaches a peak value, the rotor position becomes the start position of the minimum phase inductance and the rotor position is used as the switch-on position of the main switch. The upper and lower tubes are then switched on. | 2014-11-20 |
20140340007 | ROTARY ELECTRIC MACHINE CONTROL SYSTEM AND ROTARY ELECTRIC MACHINE CONTROL METHOD - A rotary electric machine control system includes a rotary electric machine (second motor generator), a number-of-revolutions sensor that measures the number of revolutions per predetermined time period of the rotary electric machine, and a controller. The controller has a threshold changing unit for changing a control switching phase that is a control switching threshold to be used for switching the control mode of the rotary electric machine, according to a measurement result of the number of revolutions. | 2014-11-20 |
20140340008 | Electronic Circuit and Method for Adjusting Start-up Characteristics of Drive Signals Applied to an Electric Motor - A motor control circuit and associated techniques can drive an electric motor in a start-up mode of operation followed by a normal mode of operation. The motor control circuit and techniques can receive a selection signal provided by a user that can select one of a plurality of sets of parameter values that determine characteristics of drive signals applied to the motor during the start-up mode of operation. The motor control circuit and associated techniques can synchronize operation between the start-up mode of operation and the normal mode of operation. | 2014-11-20 |
20140340009 | Electronic Circuit and Method For Synchronizing Electric Motor Drive Signals Between a Start-up Mode of Operation and a Normal Mode of Operation - A motor control circuit and associated techniques can drive an electric motor in a start-up mode of operation followed by a normal mode of operation. The motor control circuit and techniques can receive a selection signal provided by a user that can select one of a plurality of sets of parameter values that determine characteristics of drive signals applied to the motor during the start-up mode of operation. The motor control circuit and associated techniques can synchronize operation between the start-up mode of operation and the normal mode of operation. | 2014-11-20 |
20140340010 | SYNCHRONOUS MACHINE CONTROL APPARATUS - A synchronous machine control apparatus for correcting a rotor position error that is a difference between a rotor position of a synchronous machine and a rotor position detected by a position detection unit is provided with a current control device for performing control in such a way that respective current command values and respective current detection values in a generation direction (γ axis) of an armature interlinked magnetic flux and in a direction perpendicular (δ axis) to the generation direction of the armature interlinked magnetic flux coincide with each other and with a magnetic flux calculation device for calculating a phase of an armature interlinked magnetic flux, based on an armature current detection value of the synchronous machine and an armature voltage command value therefor; the rotor position error is corrected based on the γδ-axis current command values and a phase of the armature interlinked magnetic flux. | 2014-11-20 |
20140340011 | HIGH EFFICIENCY PERMANENT MAGNET MACHINE - The present invention is a high efficiency permanent magnet machine capable of maintaining high power density. The machine is operable over a wide range of power output. The improved efficiency is due in part to copper wires with a current density lower than traditional designs and larger permanent magnets coupled with a large air gap. In a certain embodiment wide stator teeth are used to provide additional improved efficiency through significantly reducing magnetic saturation resulting in lower current. The machine also has a much smaller torque angle than that in traditional design at rated load and thus has a higher overload handling capability and improved efficiency. In addition, when the machine is used as a motor, an adaptive phase lag compensation scheme helps the sensorless field oriented control (FOC) scheme to perform more accurately. | 2014-11-20 |
20140340012 | MOTOR DRIVE APPARATUS - To suppress a ripple contained in current flowing into a DC power supply during one-pulse control in a motor drive apparatus receiving electric power from the DC power supply. A motor drive apparatus | 2014-11-20 |
20140340013 | ELECTRIC MOTOR AND ELECTRIC GENERATOR - An electric motor with a stator having two coil sets arranged to produce a magnetic field of the motor, each coil set having a plurality of coil sub-sets; and two control devices, wherein the first control device is coupled to the plurality of coil sub-sets for the first coil set and the second control device is coupled to the plurality of coil sub-sets for the second coil set and each control device is arranged to control current in the respective plurality of coil sub-sets to generate a magnetic field in each coil sub-set to have a substantially different magnetic phase to the other one or more coil sub-sets in the respective coil set; and wherein the first control device and the second control device are mounted adjacent to the stator. | 2014-11-20 |
20140340014 | Analog Three Phase Self Excited Brushless Direct Current Motor - A brushless direct current three-phase motor that is self driven and therefore does not require externally generated waveforms for its operation. The circuit connected to the motor is analog and reduces the complexity and present cost of the driver circuitry. There is no electronic commutation of the currents in the stator coils as is the case with other brushless motors. | 2014-11-20 |
20140340015 | BRUSHLESS MOTOR, EXTERNAL AC VOLTAGE SOURCE, AND ELECTRIC POWER STEERING DEVICE - The present invention provides a brushless motor in which the voltage utilization ratio can be increased and the torque and output of the motor can thereby be increased, and also provides a drive method for a brushless motor. The brushless motor includes an armature constituted by an armature core having armature windings of a plurality of phases, and a field pole constituted by a field pole core having a plurality of permanent magnets. A voltage, in which at least a 5th order harmonic component is superimposed on a 1st order fundamental wave of a voltage under predetermined phase difference condition and amplitude condition in order to increase a 1st order fundamental wave peak of the applied voltage over an applied voltage peak, is applied to the armature windings. | 2014-11-20 |
20140340016 | POWER SUPPLY COMPENSATION FOR AN ACTUATOR - A mechanism for compensating power to a motor or actuator. Compensation may counter the effects of changing voltage levels of power to the motor and varying temperatures at the motor. An output of a wave generator may be input to a comparator along with a level of voltage representing the temperatures and voltage levels. An output may be a power signal for driving the motor at a constant speed and/or torque which can increase a maintenance-free lifetime of the motor and actuator. | 2014-11-20 |
20140340017 | METHOD FOR CALIBRATING A MULTIPHASE INVERTER, OPERATING APPARATUS, COMPUTER PROGRAM, AND COMPUTER PROGRAM PRODUCT - The invention relates to a method for calibrating a multiphase, in particular three-phase, inverter ( | 2014-11-20 |
20140340018 | CONTROL DEVICE OF AC ROTATING MACHINE - A control device of an AC rotating machine includes a controller receiving a current vector instruction and a detection current vector as inputs and outputs a voltage vector instruction to the AC rotating machine, an alternating current amplitude computation mechanism computing an alternating current amplitude of at least one of a parallel component and an orthogonal component with respect to the voltage vector instruction, an alternating current amplitude instruction generator generating an alternating current amplitude instruction from the current vector instruction, and a magnetic-pole position computation mechanism computing an estimated magnetic-pole position of the AC rotating machine. The magnetic-pole position computation mechanism computes the estimated magnetic-pole position so that the alternating current amplitude coincides with the alternating current amplitude instruction. | 2014-11-20 |
20140340019 | INVERTER AND METHOD OF CONTROLLING SAME - An inverter is provided. The inverter includes a current providing unit providing a first axis current and a second axis current to an induction motor; a revolutions per minute (RPM) measuring unit measuring the RPM of the induction motor; and a control unit changing the second axis current according to the measured RPM. | 2014-11-20 |
20140340020 | METHOD AND APPARATUS FOR CHARGE CONTROL OF A PORTABLE TERMINAL HAVING A SOLAR BATTERY - Provided is an apparatus for controlling charging of a portable terminal equipped with a solar battery that converts solar energy into an electrical energy, the apparatus including a thermistor in which a resistance value changes according to a temperature change; a comparator which outputs a first signal when a temperature surrounding the thermistor is less than a preset reference temperature as determined by the resistance value change of the thermistor according to the temperature change and outputs a second signal when the temperature is at least the preset reference temperature or more; and a charging unit which is activated and receives the electrical energy from the solar battery to charge a battery when the first signal is inputted from the comparator, and is deactivated and blocks the charge of battery in case the second signal is inputted. | 2014-11-20 |
20140340021 | PORTABLE ELECTRICAL POWER SOURCE - A portable electrical power source configured to provide power for a portable electronic device includes a base, a chargeable battery, a connector, and at least one locking structure. The base includes a first surface and a second surface facing away from the first surface. The base defines a receiving room between the first surface and the second surface and at least one cavity. The chargeable battery is received in the receiving room. The locking structures are rotatably received in the cavities to lock the portable electronic device onto the first surface of the base. The connector is positioned on the first surface and is electrically connected to the chargeable battery and the portable electronic device. The chargeable battery charges the portable electronic device through the connector. | 2014-11-20 |
20140340022 | BALANCING CONTROL CIRCUIT FOR BATTERY CELL MODULE USING LC SERIES RESONANT CIRCUIT - Provided is a battery cell balancing circuit including: a battery cell module including a plurality of battery cells connected in series; a series resonant circuit including an inductor unit and a capacitor unit which are connected in series so as to store electric energy recovered from a corresponding battery cell of the battery cell module and supply the stored electric energy to a corresponding battery cell of the battery cell module; and a switch unit configured to provide an electric energy recovery path for storing the electric energy recovered from the corresponding battery cell of the battery cell module into the capacitor unit of the series resonant circuit and provide an electric energy supply path for supplying the stored electric energy to the corresponding battery cell of the battery cell module. | 2014-11-20 |
20140340023 | HYBRID BATTERY BALANCING SYSTEM - A hybrid battery balancing system coupled to a battery pack protection system having a main control processor is provided. The battery balancing system includes a plurality of bypassing equalizers within a cell-voltage and temperature detecting module, the bypassing equalizers read cell voltage and temperature information from the cell-voltage and temperature detecting module, and upload the cell voltage and temperature information to the main control processor, which returns a balance instruction to control a bypass current for facilitating a passive control. The hybrid battery balancing system further includes a plurality of independent battery chargers coupled to the cell-voltage and temperature detecting module, and a battery pack with a plurality of battery cells and connected between the battery charger and the cell-voltage and temperature detecting module in a cascaded fashion. The multiple independent battery chargers are coupled with the bypassing equalizers to enhance the equivalent balancing capacity of bypassing equalizers. | 2014-11-20 |
20140340024 | DYNAMIC BOOST BATTERY CHARGERS - There is disclosed a dynamic boost charging system having a monitoring component configured to measure total DC current and/or battery current and a reporting component configured to transmit output data of the total DC current and/or battery current measured. A battery charger control system in operable connection with the monitoring component receives the data of the total DC current and/or battery current measured by the monitoring component, and is configured to: obtain an initial time and/or charge measurement; determine a time and/or charge to complete a recharge cycle based on the time and/or charge measurement; selectively use at least two preset DC output voltage settings, one of the at least two preset DC voltage settings being a float voltage, and another of the at least two preset DC voltage settings being a boost voltage; and maintain the boost voltage until the time has passed the charge has been provided. | 2014-11-20 |
20140340025 | CHARGING APPARATUS - A charging apparatus is provided for charging a rechargeable battery for a power tool. The charging apparatus comprises a housing ( | 2014-11-20 |
20140340026 | INPUT-OUTPUT CIRCUIT - A power supply detection circuit detects power feeding to a VBUS terminal from the outside. A charger detection circuit detects the kind of charger by monitoring voltages of a DP terminal and a DM terminal. A control unit adjusts timing and instructs the charger detection circuit to start a charger kind detection process after a notification of detection of power feeding is received from the power supply detection circuit. | 2014-11-20 |
20140340027 | SYSTEMS, METHODS, AND APPARATUS RELATED TO ELECTRIC VEHICLE WIRED AND WIRELESS CHARGING - One aspect provides an apparatus configured to receive wireless charging power and wired charging power. The apparatus includes a first rectifier configured to receive wired charging power and to provide a first rectified output. The apparatus further includes a second rectifier configured to receive wireless charging power and to provide a second rectified output. The apparatus further includes a power-factor correction (PFC) module configured to receive the first and second rectified outputs, and further configured to provide a power-factor corrected output. The apparatus further includes an isolated DC-DC converter configured to receive the power-factor corrected output and to provide an isolated DC output. The apparatus further includes and a battery configured to receive the isolated DC output. | 2014-11-20 |
20140340028 | CHARGER WITH HUB - A charger includes an enclosure, a charging circuit received in the enclosure., a latching member and a pair of elastic members. The enclosure defines a matching groove. The pair of elastic members are electrically connected to the charging circuit and are mounted on opposite sidewalls of the matching groove. The latching member is mounted in the matching groove, and is flexible. The present disclosure further provides a hub matching with the charger. The hub includes a main body, a circuit unit, a bulge and a pair of conductive pieces. The main body defines a receiving groove. The bulge protrudes from a bottom of the receiving groove. The pair of conductive pieces are electrically connected to the circuit unit and are located at opposite sidewalls of the bulge. A sidewall of the bulge defines a latching hole, and the latching member latches with an edge of the hole. | 2014-11-20 |
20140340029 | CHARGER WITH HUB - A charger includes a charging unit and a hub unit. The charging unit includes an enclosure, a charging circuit and two wires. The enclosure defines a matching groove. Opposite sidewalls of the matching groove separately define a limiting groove. The hub unit includes a foundation, a circuit unit, a locking protrusion, a pair of bolts and a pair of hook assemblies. The foundation defines a holder. The locking protrusion, the bolts and the latching members are all received in the holder. One end of each of the two wires is electrically coupled to the charging circuit, and the other end of each of the two wires extends through the matching groove and the receiving groove in that order and electrically couples to the circuit unit. | 2014-11-20 |
20140340030 | MAGNETIC SHEET AND NONCONTACT CHARGING SYSTEM USING THE SAME - Disclosed herein is a magnetic sheet, including: a plate-shaped magnetic member made of a magnetic material; and a dielectric layer installed in the magnetic member to thereby shield magnetic flux generated in a thickness direction of the magnetic member, in order to provide a noncontact charging system having excellent charging efficiency. | 2014-11-20 |
20140340031 | WIRELESS POWER TRANSMISSION FOR BATTERY CHARGING - A wireless power transmission system is provided for high power applications. The power transmission system is comprised generally of a charging unit configured to generate an alternating electromagnetic field and a receive unit configured to receive the alternating electromagnetic field from the charging unit. The charging unit includes a power source; an input rectifier; an inverter; and a transmit coil. The transmit coil has a spirangle arrangement segmented into n coil segments with capacitors interconnecting adjacent coil segments. The receive unit includes a receive coil and an output rectifier. The receive coil also has a spirangle arrangement segmented into m coil segments with capacitors interconnecting adjacent coil segments. | 2014-11-20 |
20140340032 | Wireless Door Lock Power Transfer System Having Communications Capabilities - A door frame has a first electromagnetic coil and a door lock has a second electromagnetic coil with a door bolt electromagnetically coupling together the first and second electromagnetic coils, thereby forming a transformer. Power is transferred from the door frame to door lock through the transformer. Communications from the door frame to the door lock may be provided by modulating electromagnetic energy to the first electromagnetic coil and demodulating the modulated electromagnetic energy received at the second electromagnetic coil. Communications from the door lock to the door frame may be provided by varying a load on the second electromagnetic coil and detecting the load change at the first electromagnetic coil. | 2014-11-20 |
20140340033 | WIRELESS POWER TRANSMISSION APPARATUS AND METHOD - A wireless power transmission apparatus for tracking a charging capacity of each of a plurality of wireless power reception apparatuses in an environment in which the plurality of wireless power reception apparatuses are charged includes a communication unit configured to receive information about either one or both of a charging support power and a requested power from each of the plurality of wireless power reception apparatuses, a controller configured to determine a charging capacity for a wireless power reception apparatus supporting the charging support power among the plurality of wireless power reception apparatuses based on the information about the charging support power, and a power tracker configured to re-track the determined charging capacity based on charging status information received from the plurality of wireless power reception apparatuses. | 2014-11-20 |
20140340034 | HANDHELD TOOL CARRYING CASE - A handheld tool carrying case includes at least one interior structuring unit having at least one interior structuring element, which is provided to delimit at least one inductive charge receiving region for at least one handheld tool battery. The interior structuring unit is configured to be combinable in a modular manner. | 2014-11-20 |
20140340035 | WIRELESS POWER SUPPLY SYSTEM - A wireless power supply system that wirelessly supplies electric power from a power-supplying coil to a power-receiving coil is provided with a ground power-supplying device having a power-supplying coil, a vehicle having a power-receiving coil, and a power-supplying and a power-receiving covers that shield leakage magnetic flux by covering the periphery of the power-supplying coil and the power-receiving coil and the periphery of space between the coils. | 2014-11-20 |
20140340036 | WIRELESS POWER TRANSFER FOR LOW POWER DEVICES - Exemplary embodiments are directed to wireless power transfer. A method of operating a wireless receiver may comprise receiving wireless power with a receive antenna and conveying power from the receive antenna to a chargeable element. The method may further include electrically isolating the receive antenna from the chargeable element upon detecting that the chargeable element is fully-charged. | 2014-11-20 |
20140340037 | DELAYED POWER-ON FUNCTION FOR AN ELECTRONIC DEVICE - A delayed power-on function for an electronic device is disclosed. A charging unit charges a rechargeable battery with a pre-charge current when a voltage of the rechargeable battery is less than a voltage threshold value and with a current larger than the pre-charge current when the voltage of the rechargeable battery is greater than the voltage threshold value. A disabling unit can disable power-on when the voltage of the rechargeable battery is less than the voltage threshold value. A user may also be notified when power-on is disabled. | 2014-11-20 |
20140340038 | METHOD FOR DYNAMIC AND FORWARD MANAGEMENT OF THE BATTERY RECHARGING WITH ELECTRIC POWER - The method for dynamic and forward management of the recharging of batteries with electric power includes retrieving at least one data record relating to a previous recharging of each battery in the form of a recharging time extending from a time of beginning of the power supply to a time of ending of the power supply. The method also includes determining a forward duration of recharging of each battery from a forward time of beginning of power supply to a forward time of ending of the supply and determining a schedule for recharging while sequencing the forward times of recharging determined for each battery. The durations follow each other and overlap at least partially over time, while applying each forward duration to the recharging, from forward time of beginning of power supply to forward time of ending of power supply. | 2014-11-20 |
20140340039 | BATTERY CHARGING DEVICE FOR AN ELECTRIC VEHICLE - An electric vehicle battery charging device includes: a series resonance part, which receives a rectified voltage, and which includes a transformer, a resonant inductor, and a resonant capacitor; a rectifying part, of which a first input end is connected with one end of a secondary winding of the transformer, a second input end is connected with the other end of the secondary winding of the transformer, and an output end is connected with an electric vehicle battery; and a switching part, of which one end is connected with one end of the secondary winding of the transformer and the first input end of the rectifying part, and the other end is connected with the other end of the secondary winding of the transformer and the second input end of the rectifying part, where the switching part controls the current from the secondary winding of the transformer to the rectifying part. | 2014-11-20 |
20140340040 | CHARGING SYSTEMS FOR ELECTRIC VEHICLES - This disclosure provides systems and methods for charging a vehicle. A vehicle and charging station can be designed such that an electric or hybrid vehicle can operate in a fashion similar to a conventional vehicle by being opportunity charged throughout a known route. | 2014-11-20 |
20140340041 | CONVERTER FOR A BATTERY CHARGING STATION - A modular converter is disclosed for a battery charging station, having at least two charging modules connected in parallel. Each of the charging modules can be configured for generating an output current I | 2014-11-20 |
20140340042 | MULTI-SERIES BATTERY CONTROL SYSTEM - A multi-series battery control system comprises a plurality of unit battery cell of which unit consists of multiple battery cells connected in series; a plurality of control IC comprising a control circuit for controlling the unit battery cell; a main controller that sends and receives signal to/from the control ICs via an insulation; means for sending an abnormality signal, which represents the existence or the absence of abnormality of the control ICs or the battery cells, to the main controller from the control ICs, responding to the first signal outputted from the main controller via the insulation; and means for searching contents of the abnormality in the control ICs or the battery cells and sending the abnormality contents signal based on the search, to the main controller from the control ICs, responding to the second signal outputted from the main controller via the insulation. | 2014-11-20 |
20140340043 | BATTERY CHARGE MANAGEMENT AND CONTROL - Disclosed are an apparatus and method of monitoring and charging a battery based on predefined criteria. One example method may include identifying an electronic device use event comprising at least one of an amount of time and an amount of battery charge used to perform the use event, and storing the electronic device use event in memory. The method may also include retrieving the electronic device use event from memory responsive to a battery charge management operation, and applying the electronic device use event to the battery charge management operation. | 2014-11-20 |
20140340044 | APPARATUS AND METHOD WITH ACTIVE BALANCING CIRCUIT AND ACTIVE BALANCING ALGORITHM FOR CHARGING AND DISCHARGING SECONDARY BATTERIES CONNECTED IN SERIES - An active balancing control apparatus and method with an active balancing algorithm to charge and discharge a plurality of batteries connected in series. The active balancing control apparatus may be designed to simultaneously charge and discharge a plurality of batteries, connected in series and having different charge/discharge characteristics, using an active balancing circuit. The apparatus may perform switching to achieve balancing of each of the batteries so that all the batteries may be charged at a maximum voltage. | 2014-11-20 |
20140340045 | APPARATUS FOR BATTERY STATE ESTIMATION - An apparatus for battery state estimation can accurately estimate the internal state of a battery by taking into consideration the slow response portion of the battery. The apparatus for battery state estimation includes a charge/discharge current detection unit, a terminal voltage detection unit, an equivalent circuit model including a fast response portion and slow response portion of the battery, a sequential parameter estimation unit that performs sequential parameter estimation, using only the fast response portion among response portions, based on the charge/discharge current value and the terminal voltage value, a constant setting unit that sets a constant representing resistance and capacitance in the slow response portion of the equivalent circuit model, a plurality of multiplication units that multiply the parameter estimated by the sequential parameter estimation unit and the constant by the charge/discharge current value, and an addition unit that obtains an overvoltage value of the battery by adding the multiplied values. | 2014-11-20 |
20140340046 | PROTECTIVE ELEMENT, PROTECTIVE ELEMENT FABRICATION METHOD, AND BATTERY MODULE IN WHICH PROTECTIVE ELEMENT IS EMBEDDED - A protective element including a substrate having a first insulating member and a concave portion formed thereon, a heating body layered on the concave portion of the substrate, a second insulating member layered on the substrate so as to cover at least covering the heating body, first and second electrodes layered on a surface of the substrate on which the second insulating member is layered, a heating body electrode layered on the second insulating member so as to be superimposed with the heating body, and electrically connected to a current path between the first and the second electrodes as well as onto and the heating body, and a low-melting point metal layered from the heating body electrode toward the first and the second electrodes configured to cause a blowout of the current path between the first and the second electrodes by heating. | 2014-11-20 |
20140340047 | SYSTEM AND METHOD FOR CONTROLLING AN ENERGY STORAGE DEVICE - The invention relates to a method for controlling an energy storage device that comprises n output connections, wherein n≧2, for producing a supply voltage at each of the output connections, and n energy supply branches, which are each coupled to one of the output connections, wherein each of the energy supply branches comprises a plurality of series-connected energy storage modules that each comprise an energy storage cell module comprising at least one energy storage cell, and a coupling device having coupling elements in a full bridge circuit that is designed to connect or bridge the energy storage cell module selectively in the respective energy supply branch. The method according to the invention comprises the following steps: for a number k of energy storage modules of at least one first energy supply branch, generating a first pulse width modulated control signal for controlling the coupling devices of the respective energy storage modules by comparing a first target value signal with a number 2k first periodic reference signals having a pulse period T, which signals each have a phase shift of T/2k relative to the adjacent first reference signals; and, for a number k of energy storage modules of at least one second energy supply branch, generating a second pulse width modulated control signal for controlling the coupling devices of the respective energy storage modules by comparing a second target value signal with a number 2k of second periodic reference signals having the pulse period T, which each have a phase shift of T/2k relative to the adjacent second reference signals. The second reference signals each have a phase shift of T/4k relative to the first reference signals. | 2014-11-20 |
20140340048 | FACILITY INFORMATION PRESENTATION DEVICE AND FACILITY INFORMATION PRESENTATION METHOD - A calculating part acquires a current position from an acquiring part. The calculating part searches for the position of a charging facility in charging facility information within a retaining part on the basis of the acquired current position, and specifies the charging facility for a next charging. The calculating part calculates a charging time based on a charged amount and a charging capacity of the specified charging facility. A selecting part selects peripheral facilities presented to a user based on calculated charging time and a standard time indicating an average time spent on using each peripheral facility registered in association with the specified charging facility retained in the retaining part, and displays the information regarding the selected peripheral facilities on the display part. Thus, assistance can be provided for the effective use of the time needed to charge a storage cell onboard a moving body at a charging facility. | 2014-11-20 |
20140340049 | BATTERY EQUALIZING CIRCUIT - The present disclosure discloses a battery equalizing circuit, which comprises a first battery unit, a second battery unit, a current detecting resistor, an equalizing inductor, a first control switch, a second control switch and a feedback control circuit. The first battery unit is connected in series with the second battery unit. The first battery unit, the current detecting resistor, the equalizing inductor and the first control switch are electrically connected with each other to form a first circuit loop. The second battery unit, the current detecting resistor, the equalizing inductor and the second control switch are electrically connected with each other to form a second circuit loop. The feedback control circuit is connected in parallel with the current detecting resistor to detect a voltage drop across the current detecting resistor, and switch between the first and the second circuit loop so as to make an equalizing current substantially constant. | 2014-11-20 |
20140340050 | REFRESH CHARGING METHOD FOR AN ASSEMBLED BATTERY CONSTITUTED FROM A PLURALITY OF LEAD-ACID STORAGE BATTERIES AND CHARGING APPARATUS - Provided are a refresh charging method and a refresh charging apparatus for an assembled battery constituted from lead-acid storage batteries, by which a necessary charging rate may be performed while shortening a charging period. In a constant voltage charging mode, n intermediate threshold values S | 2014-11-20 |
20140340051 | BATTERY CHARGE MANAGEMENT AND CONTROL - Disclosed are an apparatus and method of monitoring and charging a battery based on predefined criteria. One example method may include identifying an event entry stored in an event application, estimating a time duration associated with the event, calculating an amount of battery charge required to satisfy the event being conducted on an electronic device, and charging a battery of the electronic device to a charge level corresponding to the calculated amount of battery charge. | 2014-11-20 |
20140340052 | SYSTEM AND METHOD FOR CHARGING THE ENERGY STORAGE CELLS OF AN ENERGY STORAGE DEVICE - The invention relates to a method for charging the energy storage cells of an energy storage device, which comprises: n first output connections, wherein n>1, for issuing a supply voltage at each of the output connections, a second output connection, wherein a charging device can be connected between the first output connections and the second output connection, and n parallel-connected energy supply branches, which are each coupled between a first output connection and the second output connection, wherein each of the energy supply branches comprises a plurality of series-connected energy storage modules, which each comprise an energy storage cell module comprising at least one energy storage cell, and a coupling device having coupling elements that are designed to selectively connect or bridge the energy storage cell module in the respective energy supply branch. The method according to the invention comprises the following steps: determining a maximum possible charging voltage of a charging apparatus, which provides a charging voltage for the energy storage device; determining the maximum number of the energy storage cell modules of an energy supply branch at which the sum of the output voltages of the energy storage cell modules, which is dependent on the instantaneous charge states of the energy storage cells of all the energy storage cell modules of an energy supply branch, is still lower than the maximum possible charging voltage; and selecting and controlling the coupling elements of energy storage modules of the energy supply branch, such that in each case only the maximum number of energy storage cell modules is coupled into the energy supply branch. | 2014-11-20 |
20140340053 | STATE OF CHARGE INDICATOR FOR A BATTERY CHARGER - A method is provided for indicating state of charge of a battery being charged by a charger. The method includes: supplying a charging current from a battery charger to a battery pack; determining voltage of battery cells residing in the battery pack; and illuminating a visual indicator on the battery charger to indicate state of charge of the battery pack, where brightness of the visual indicator correlates to the voltage of the battery cells in the battery pack. | 2014-11-20 |
20140340054 | SELF-DISCHARGING CAPACITOR - A self-discharging capacitor may include a capacitor and a resistor coupled in parallel to the capacitor. The self-discharging capacitor may also include a housing such that the capacitor and the resistor may be enclosed within the housing. The housing may also enclose a potting material that is thermally conductive and electrically non-conductive. | 2014-11-20 |
20140340055 | METHOD AND SYSTEM FOR CONTROLLING A MOTOR VEHICLE ALTERNATOR, AND MOTOR VEHICLE ALTERNATOR INCLUDING SUCH A SYSTEM - A method for controlling a motor vehicle alternator, in which an error value, resulting from the comparison between the voltage produced by the alternator and a set value, is processed in a filtering means by applying a transfer function, which determines a gain to be associated with the error value on the basis of the rotational frequency of the alternator, in order to control the adjustment of the field current allowed by the alternator. The transfer function of the filtering means is modified on the basis of the rotational speed of the alternator by attenuating the gain over a given frequency range when the rotational speed decreases. | 2014-11-20 |
20140340056 | Position Sensorless Control Method for Switched Reluctance Generator - A control method for a switched reluctance generator employing dual switched-mode power converters does not require a position sensor. In the excitation stage, the upper tube and lower tube of the main switch of a phase in the power converter are switched on, and the phase current is detected. When the phase current rises to a preset threshold, the upper tube or lower tube of the main switch of the phase is switched off, changing the phase of the switched reluctance generator into a zero voltage natural freewheeling state. When the phase current drops to the valley value, the rotor position is the end position of maximum phase inductance of the phase. This rotor position is used as the switch-off position of the main switch of the phase of the switched reluctance generator, and the upper tube and lower tube for the main switch of the phase are switched off. | 2014-11-20 |
20140340057 | SYSTEM AND METHOD FOR REDUCING POWER CONSUMPTION IN A POWER SUPPLY CIRCUIT - A system for reducing power consumption in a power supply circuit including: a transformer including: a core; a first winding including a first end and a second end of a first wire wound on the core; a second winding including a first end and a second end of a second wire, wherein the second wire has a larger cross-section than the first wire and the second end of the first wire is connected to the first end of the second wire; an input electrically connecting the first and second windings to the power supply circuit; and an output for connecting to a load; and a controller connected to the transformer for controlling an output voltage at the output, wherein the output voltage is less than a supply voltage at the input, to reduce the power consumption of the load. | 2014-11-20 |
20140340058 | NMOS LDO PSRR IMPROVEMENT USING POWER SUPPLY NOISE CANCELLATION - Power-supply ripple rejection (PSRR) at high frequencies is improved for an LDO voltage regulator with an NMOS pass transistor (MN | 2014-11-20 |
20140340059 | TIMING GENERATOR AND TIMING SIGNAL GENERATION METHOD FOR POWER CONVERTER - A timing generator and a timing signal generation method for a power converter are provided. The timing generator includes an adjusting circuit and a timing generation unit. The adjusting circuit receives an error signal related to an output voltage of the power converter. The adjusting circuit generates an adjusting signal according to the error signal and a delay circuit. The timing generation unit generates a timing signal according to the error signal, the adjusting signal and a control signal. A width of the timing signal is changed with the error signal and the adjusting signal. Accordingly, the timing generator adjusts On-time/Off-time in response to a transient response. | 2014-11-20 |
20140340060 | VOLTAGE REGULATOR WITH IMPROVED LINE REJECTION - Devices and methods are provided for generating a regulated output voltage with improved line rejection based on an input voltage and a reference voltage. The device may include a pass transistor and a replica transistor, wherein source ports of the pass transistor and the replica transistor are coupled to the input voltage, a drain port of the pass transistor is coupled to the output voltage, and a gate port of the pass transistor is coupled to a gate port of the replica transistor. The device may further include a coupling circuit configured to couple current from the drain port of the replica transistor to the gate port of the replica transistor, the coupling circuit further configured to control voltage on the drain port of the replica transistor based on the reference voltage. | 2014-11-20 |
20140340061 | DC-DC CONVERTER CONTROL CIRCUIT AND DC-DC CONVERTER - A DC-DC converter control circuit has an inductor configured to be interposed between a first node which is set to a first direct current voltage or a second direct current voltage and a second node which outputs an output voltage at a predetermined direct current voltage level, an error signal generator configured to generate an error signal depending on a voltage difference between a reference voltage and a voltage correlating with the output voltage, a ripple extractor configured to extract and output ripple components contained in the voltage of the first node, a single-ended signal generator configured to generate a single-ended signal based on the error signal and an output signal from the ripple extractor, and a switch drive unit configured to drive and control, based on the single-ended signal, a switch circuit which sets the first node to the first direct current voltage or the second direct current voltage. | 2014-11-20 |
20140340062 | SINGLE-STAGE SOLAR-PHOTOVOLTAIC POWER CONVERSION CIRCUITRY - A DC-to-DC power converter includes an input to receive an input voltage and an input current from a solar panel, an output to provide an output voltage and an output current, and a single-stage switched-mode power-conversion circuit, coupled between the input and the output, to convert the input voltage and input current to the output voltage and output current in accordance with a control signal. The DC-to-DC power converter also includes a sense-and-control unit to sense the input voltage, input current, output voltage, and output current, and to generate the control signal based at least in part on one or more of the sensed input voltage, input current, output voltage, and output current. | 2014-11-20 |
20140340063 | INTEGRATED CIRCUIT FOR CONTROLLING AN INDUCTIVE BOOST CONVERTER - An integrated circuit for controlling a boost converter. The integrated circuit includes a gate pin, a source pin, a feedback pin, a current mirror sub-circuit, and a control sub-circuit. The current mirror sub-circuit is connected to the source pin to produce an output current from a reference current flowing between the source pin and ground, the reference current being larger than the output current. The control sub-circuit is connected to the current mirror sub-circuit, the gate pin and the feedback pin to control a gate voltage provided to the gate pin based on the output current and a feedback voltage at the feedback pin | 2014-11-20 |
20140340064 | POWER CONVERTER AND OPERATING METHOD THEREOF - A power converter is disclosed. The power converter includes a comparator and a timing generator. The comparator compares a first input signal with a second input signal to provide a control signal. The timing generator is coupled to the comparator. The timing generator includes a plurality of timing generating units, a logic unit, and a calculation unit. The timing generator generates a plurality of timing signals through the timing generating units and the logic unit according to the control signal, and the calculation unit forms a pulse width modulation (PWM) signal according to the timing signals. At least a part of the timing signals are overlapped. | 2014-11-20 |
20140340065 | Adaptive Low-Power Zero-Cross Comparator for Discontinuous Current Mode Operated Switching Mode Power Supply - A time off estimator and an adaptive controller implemented on an integrated circuit to emulate current dependent zero crossing circuitry to permit improved performance of a buck type switching mode power supply. The time off estimator circuit is enhanced by an automatic correction circuit for the timing of a zero crossing where energy to a reference capacitor returns to zero and is turned off awaiting the next cycle where the capacitor is again charged and discharged. | 2014-11-20 |
20140340066 | TIMING GENERATOR AND TIMING SIGNAL GENERATION METHOD FOR POWER CONVERTER - A timing generator for a power converter is provided. The timing generator includes a threshold voltage generation circuit and a timing generation unit. The threshold voltage generation circuit receives an error signal related to an output voltage of the power converter. The threshold voltage generation circuit generates a threshold voltage according to the error signal. The timing generation unit generates a timing signal according to the error signal, the threshold voltage and a control signal. The timing generation unit provides a tracking signal. A width of the timing signal depends on a time when tracking signal departed from a level of the error signal to a level of the threshold voltage. The present invention also provides a timing signal generation method for the power converter. | 2014-11-20 |
20140340067 | OUTPUT VOLTAGE VARIATION REDUCTION - A method of reducing voltage variations in a power supply may include generating an intermediate voltage and setting a first-transistor gate voltage at a first-transistor gate of a first transistor of the power supply based on the intermediate voltage. The method may also include setting an output voltage at an output node of the power supply based on a second-transistor gate voltage at a second-transistor gate of a second transistor. Additionally, the method may include setting the second-transistor gate voltage based on the first-transistor gate voltage such that the output voltage is based on the intermediate voltage, a first-transistor threshold voltage of the first transistor, and a second-transistor threshold voltage of the second transistor and such that variations in the first-transistor threshold voltage and the second-transistor threshold voltage at least partially cancel each other out. | 2014-11-20 |
20140340068 | BANDGAP REFERENCE CIRCUIT - A bandgap reference circuit is provided and which includes an operating voltage, a current mirror, a first p-channel metal-oxide semiconductor (PMOS) transistor and an amplifier. The current mirror is coupled to the operating voltage. The first PMOS transistor is coupled to the operating voltage and the current mirror. The amplifier is coupled to the current mirror and the first PMOS transistor. When the bandgap reference circuit is activated, the operating voltage starts to supply voltage such that the first PMOS transistor is turned on first. When the operating voltage is higher than a preset voltage level, the first PMOS transistor is turned off, in order to complete an start-up process. | 2014-11-20 |
20140340069 | CURRENT GENERATOR CIRCUIT AND METHODS FOR PROVIDING AN OUTPUT CURRENT - Current circuits, circuits configured to provide a bias voltage, and methods for providing a bias voltage are described, including a current circuit configured to receive a reference current and having an output at which an output current is provided. One such current circuit includes a first current mirror configured to receive a first portion of the reference current and further configured to mirror the first portion of the reference current to provide a first current. The current circuit further includes a second current mirror configured to receive a second portion of the reference current and receive the first current. The second current mirror is further configured to provide a portion of the first current to the output of the current circuit as the output current and to receive another portion of the first current and mirror the same as the second portion of the reference current. | 2014-11-20 |
20140340070 | ELECTRONIC CIRCUIT HAVING BAND-GAP REFERENCE CIRCUIT AND START-UP CIRCUIT, AND METHOD OF STARTING-UP BAND-GAP REFERENCE CIRCUIT - A circuit includes a band-gap reference circuit and a start-up circuit. The band-gap reference circuit includes an operational amplifier, a first current path between a power supply node and a reference node, a second current path between the power supply node and the reference node, and a feedback path between an output of the operational amplifier and the first and second current paths. A first input of the operational amplifier is coupled to the first current path, and a second input of the operational amplifier is coupled to the second current path. The start-up circuit includes a current source and at least one switch coupled between the current source and the band-gap reference circuit. The at least one switch is configured to electrically couple the current source with the first and second current paths during a start-up phase. | 2014-11-20 |
20140340071 | POSITION SENSING DEVICE FOR TRANSIT SHAFT AND ARM ASSEMBLY - A rotational position sensing device for sensing rotation of an axially adjustable shaft of a shaft and arm assembly of a door that does not require readjustment after the shaft and arm assembly are adjusted includes a fixed bracket supporting a post, a position sensor having an upper portion, a lower portion and an extended portion, and a rotating portion. The extended portion extends from the upper portion of the position sensor and constrains the post of the bracket such that the upper portion of the position sensor is unable to axially rotate relative to the bracket. The rotating section is adapted to be fixed to the shaft and engage with the lower portion of the position sensor, such that the rotating portion rotates relative to the upper portion of the position sensor. | 2014-11-20 |
20140340072 | SENSOR DEVICES AND METHODS FOR USE IN SENSING CURRENT THROUGH A CONDUCTOR - A utility meter and related methods are disclosed. The utility meter includes a sensor device positioned around a conductor to sense current flowing through the conductor. The sensor device includes a non-magnetic substrate, a coil comprising a plurality of turns wound about the substrate, and a dielectric material having a dielectric constant and positioned between the coil and the conductor. The utility meter also includes a meter control board in communication with the sensor device to determine an amount of electricity transmitted through the conductor from the power source to the user over time. The dielectric constant of the dielectric material is selected to reduce a capacitive coupling between the coil and the conductor and to reduce a sensitivity of the sensor device such that the meter control board comprises only one calibration coefficient for calibrating the sensor device over a current range. | 2014-11-20 |
20140340073 | SIGNAL PROCESSING DEVICE AND MEASURING METHOD - A signal processing device and a measuring method are provided. A ring oscillator includes (2n+1) signal transmission circuits (n is an integer greater than or equal to 1). One of the signal transmission circuits comprises an inverter, a first transistor, and a second transistor; one of an input terminal and an output terminal of the inverter is connected to one of a source and a drain of the first transistor; one of a source and a drain of the second transistor is connected to a gate of the first transistor; an output of a k-th (k is an integer greater than or equal to 1 and less than or equal to 2n) signal transmission circuit is connected to an input of a (k+1)-th signal transmission circuit; and an output of a (2n+1)-th signal transmission circuit is connected to an input of a first signal transmission circuit. | 2014-11-20 |
20140340074 | MONITORING ARRANGEMENT AND METHOD FOR MONITORING AN ELECTRICAL LINE - The invention relates to a monitoring arrangement for monitoring an electrical line having at least one thermogenerator and/or a device for inductively producing energy, determination means for determining at least one electrical characteristic parameter of an electrical current flowing in the electrical line and/or the temperature of the electrical line and/or the area surrounding the electrical line. An electrical connection exists or can be established between the determination means and the thermogenerator or the device for inductively producing energy, which connection can be used to operate the determination means with electrical energy produced by the thermogenerator or provided by the device for inductively producing energy; and connection means for establishing a mechanical connection to the electrical line. | 2014-11-20 |
20140340075 | POWER MANAGEMENT DEVICE, METHOD OF CONTROLLING POWER MANAGEMENT DEVICE, AND PROGRAM FOR CONTROLLING POWER MANAGEMENT DEVICE - A power management device includes an obtaining portion for obtaining information on power consumption from a plurality of electrical appliances, a display portion, and a controller for causing the display portion to display information on power consumption in the plurality of electrical appliances obtained through the obtaining portion. In each electrical appliance, a plurality of pieces of attribute information are set in advance in association, the controller carries out grouping of the plurality of electrical appliances in a plurality of layers based on the plurality of pieces of attribute information, and for each group categorized through grouping into the plurality of layers, the controller causes information on power consumption in an electrical appliance belonging to the group to be displayed. | 2014-11-20 |
20140340076 | Sensor unit - A sensor unit comprising a sensor, a sensor electronic connected to the sensor, and a first connection unit, which is connected to the sensor electronic, with the sensor, the sensor electronic, and the first connection unit being arranged in a tubular housing, and with the first connection electronic being able to contact a second connection unit embodied in a corresponding fashion, with a formed part with an internal contour being arranged in the housing in a torque-proof fashion, with the internal contour and an external contour of the first connection unit and/or the second connection unit being embodied at least sectionally corresponding to each other, and the internal contour comprising at least one fastening section, which is embodied such that any distortion of the first and/or second connection unit is prevented in reference to the formed part. | 2014-11-20 |
20140340077 | SENSOR ASSEMBLY - A method of determining a position on a magnetic track of an encoder includes providing a group of magnetic pole pairs that forms a portion of the magnetic track, recording a relative position within a first magnetic pole pair in the group using a first magnetic sensor proximate a high-resolution portion of the magnetic track, detecting adjacent pole junctions within the group of magnetic pole pairs with a second magnetic sensor positioned proximate a reference portion of the magnetic track, correlating the adjacent pole junctions with the first magnetic pole pair to determine a relative position of the first magnetic pole pair within the group, and calculating a local absolute position within the group using the relative position within the first magnetic pole pair and the relative position of the first magnetic pole pair within the group. | 2014-11-20 |
20140340078 | DEVICE FOR SENSING A CAPSULE IN A BEVERAGE PRODUCTION APPARATUS - The invention aims to provide a device sensing a capsule inserted in a receptacle in machine and physical parameters of liquid supplied by a beverage production apparatus flowing through the capsule in function of the type of capsule. The capsule containing beverage ingredient is inserted in a cylindrical or conical wide mouthed receptacle having an upper opening for inserting the capsule and a lower bottom closing the receptacle. The receptacle rotates around an axis of a hollow shaft attached at the center and perpendicularly to the external face of the bottom of the receptacle, said shaft forming a hole at the center of the inner face of the bottom of the receptacle. The device comprises a rod sliding in the shaft and passing through the hole of the inner face of the bottom of the receptacle, said rod being provided with a spring maintaining an end of the rod lifted inside the receptacle in contact with the capsule, the other end being inside the shaft. The device further comprising means for measuring the position of the end of the rod in the shaft, in order to control, in function of the size of the capsule inserted in the receptacle, rotation speed of the receptacle, discharge and physical parameters of liquid supplied by the beverage production apparatus flowing through the capsule. | 2014-11-20 |
20140340079 | FLANGE AND RESOLVER ASSEMBLY - A resolver has a structure in which the resolver is attached to a flange by press-fitting and in which strong stress that affects an angle detecting accuracy of a stator of the resolver is not applied. The flange, in which a resolver is press-fitted, includes a cylindrical portion in which a stator of the resolver is press-fitted to the inside thereof, and a tabular portion which is larger than an outer diameter of a cylindrical portion viewed from an axial direction and which is integrated with the cylindrical portion, wherein a clearance portion having an expanded inner diameter which does not contact with an outer periphery of the stator of the resolver is provided on an overlapped portion of a cylindrical portion viewed from a vertical direction to the axis and the tabular portion. | 2014-11-20 |
20140340080 | WIRELESS PROXIMITY SWITCH WITH A TARGET DEVICE COMPRISING AN INVERTER - A target device for use with a switch device of a proximity switch has a wireless receiver means ( | 2014-11-20 |
20140340081 | MAGNETIC SENSOR - A magnetic sensor includes a detection portion that includes first and second magnetic resistance elements. Each of the first and second magnetic resistance elements includes a pinned layer whose magnetic direction is fixed in a predetermined direction and a free layer whose magnetic direction changes in accordance with an external magnetic field. A resistance value of each of the first and second magnetic resistance elements changes in accordance with an angle between the magnetization direction of the pinned layer and the magnetization direction of the free layer. The first and second magnetic resistance elements are connected in series in a state where the magnetization directions of the pinned layers are perpendicular to each other. The detection portion outputs a middle point voltage of the first and second magnetic resistance elements as a detection signal. | 2014-11-20 |
20140340082 | Formation Core Sample Holder Assembly And Testing Method For Nuclear Magnetic Resonance Measurements - A core sample holder assembly for performing a laboratory magnetic resonance measurement of a core sample taken from a hydrocarbon containing formation is provided. The assembly comprises a pressure chamber provided by a hull and one or more flanges are sealingly coupled with the hull. A flexible core sample holder sleeve is arranged within the pressure chamber and is sealingly coupled with at least one of the flanges. An overburden fluid injection port is in fluid communication with an annular space between the hull and the flexible sleeve and is configured to inject overburden fluid into an annular space between the hull and the flexible sleeve. A pressure regulator is configured to maintain the overburden fluid in the annular space at an elevated pressure. A radio-frequency antenna, within the pressure chamber and wrapped around the sample holder sleeve, is configured to receive an electromagnetic-signal from the core sample. In use, the core sample is arranged substantially within the sleeve. | 2014-11-20 |
20140340083 | Parallel acquisition image reconstruction method and device for magnetic resonance imaging - A method and a parallel acquisition image reconstruction device for magnetic resonance imaging are provided. The method may include: sampling magnetic resonance signals from a plurality of channels, and filling the magnetic resonance signals in an initial k-space; obtaining a first virtual space by performing a mathematical transformation, and obtaining a second virtual space by reserving virtual channels of the first virtual space; calculating a first combination coefficient, and a second combination coefficient; putting the first combination coefficient and the second combination coefficient into a predetermined objective function to obtain the data of the second virtual space; and transforming the data of the second virtual space to an image domain to obtain a reconstructed image. The method of the present disclosure reserves data of channels having a high signal-to-noise ratio to serve as the second virtual space, whereby the image reconstruction speed and signal-to-noise ratio of image are improved. | 2014-11-20 |
20140340084 | APPARATUS, SYSTEMS AND METHODS WHICH ARE BASED ON MAGNETIC RESONANCE IMAGING FOR EVALUATION(S) OF RADIO FREQUENCY EMITTING DEVICE(S) - Exemplary system, method and computer accessible medium can be provided for evaluating at least one radio frequency transmitting arrangement. For example, it is possible to receive a first information associated with at least one scan of at least one live subject corresponding to one or more effects of the transmitting arrangement(s) on the at least one live subject, and determine a second information based on the first information. | 2014-11-20 |
20140340085 | TIME-RESOLVED MAGNETIC SENSING WITH ELECTRONIC SPINS IN DIAMOND - A system for performing Walsh reconstruction of time dependent fields with a quantum probe that includes a diamond structure that includes nitrogen-vacancy (NV) centers for sensing magnetic and electric fields. An arbitrary waveform generator and microwave waveguides manipulate the quantum spins in the diamond structure using a plurality of coherent control sequences to measure the arbitrary profile of time-varying magnetic fields. A laser that optically addresses the quantum spins in the diamond structure for initialization and readout. | 2014-11-20 |
20140340086 | USER INTERFACES FOR UTILITY LOCATORS - The present disclosure relates to user interfaces for enhanced utility locators. Such enhanced utility locators may include a myriad of sensors and other such technologies for determining information regarding the buried or otherwise inaccessible utility line. Such information may be displayed in a myriad of ways to convey relative characteristics among multiple utilities, or to convey relative characteristics of one or more utilities with respect to a locator. | 2014-11-20 |
20140340087 | HYDRANT - This hydrant ( | 2014-11-20 |
20140340088 | Metal Sensor - A metal sensor includes a primary coil arranged in a first plane, a first compensation coil arranged in a second plane, a second compensation coil arranged in a third plane, and a magnetic field sensor arranged in a fourth plane. The first plane, the second plane, the third plane and the fourth plane are oriented parallel to one another and perpendicular to a common z-direction in each case. | 2014-11-20 |