25th week of 2014 patent applcation highlights part 25 |
Patent application number | Title | Published |
20140167655 | SECURE BATTERY ELEMENT - A battery element includes series-connected electrochemical accumulators applying a difference in potential between first and second poles, two power output terminals, and a securing device. The securing device comprises first and second switches connected in series between the first and second poles. The first switch is a normally-closed switch, and the second switch is a normally-open switch. The normally-open second switch is configured to selectively isolate/connect the first pole and the first terminal, and the normally-closed first switch being configured to selectively isolate/connect the first and second terminals. The electrochemical accumulators are configured to apply a voltage as a control signal for the normally closed first switch. | 2014-06-19 |
20140167656 | BATTERY SYSTEM, ELECTRIC VEHICLE, MOVABLE BODY, POWER STORAGE DEVICE, AND POWER SUPPLY DEVICE - Provided is a battery system capable of accurately calculating a state of charge of a battery cell, an electric vehicle, a movable structure, an electricity storage device, and a power supply device. A current-based SOC calculation unit calculates a current-based SOCi on the basis of current flowing in a battery cell. A voltage-based SOC calculation unit calculates a voltage-based SOCv on the basis of the terminal voltage of the battery cell. A combined SOC calculation unit calculates a combined SOCt by weighting the SOCi and the SOCv with the respective weight coefficients (1−α) and α, and combining the weighted SOCi and SOCv. The weight coefficients (1−α) and α are determined based on whether the battery cell is in a charging state, a discharging state, or a charge/discharge stopped state. | 2014-06-19 |
20140167657 | BATTERY SYSTEM, BATTERY CONTROL DEVICE, ELECTRIC VEHICLE, MOBILE BODY, AND POWER SOURCE DEVICE - A battery module group includes a plurality of battery groups. Each battery group includes a plurality of battery modules. Cell information is supplied from each battery module of the battery module group to a charge/discharge controller. The charge/discharge controller controls the turning on and off of a plurality of switching elements of a connector based on the supplied cell information of each battery module. The plurality of switching elements correspond to the plurality of battery groups, respectively. Thus, the plurality of battery groups are selectively connected to an external object via a DC/AC converter. | 2014-06-19 |
20140167658 | METHOD OF CONTROLLING AIR BLOWER OF FUEL CELL VEHICLE - A system and a method of controlling a blower of a vehicle. The method includes detecting, by a controller, a turning of a key to an off position of the vehicle. In addition, the controller is configured to detect whether a high voltage DC-DC converter and a high voltage battery are normally operated in response to detecting the turning of the key to an off position. Regenerative energy generated by a regenerative brake operation of the blower is transmitted by the controller through two different paths based on whether the high voltage DC-DC converter and the high voltage battery are normally operated. | 2014-06-19 |
20140167659 | MOTOR CONTROL DEVICE AND MOTOR CONTROL METHOD - In an αβ coordinate system, vectors of currents flowing in three-phase AC motor are set in directions fixed relative to a zero vector current according to a voltage applied in six non-zero vector switching modes of an inverter. A current vector closest to a command current value is specified from those current vectors. Then, only a non-zero vector current when operating the inverter in the non-zero vector switching mode corresponding to the specified current vector is calculated. | 2014-06-19 |
20140167660 | INVERTER DEVICE - In the inverter device that receives DC power from the DC common bus and drives a load, the configuration is such that the switching element is arranged on the first current path in which current flows through the positive-side DC terminal during powering, the reverse-connected diode is arranged on the second current path in which current flows through the positive-side DC terminal during regeneration, the charging resistor is arranged on the third current path in which current flows through the positive-side DC terminal when the smoothing capacitor of the smoothing unit is initially charged, and the brake resistor is connected externally between the positive-side DC terminals such that the positive-side DC terminal becomes an end whose potential is the same as that of the positive-side bus of the DC common bus. | 2014-06-19 |
20140167661 | POWER CONVERSION SYSTEM - This disclosure relates to a power conversion system to power a variable impedance load with a variable power source, the power conversion system comprising a power converter including input terminals adapted to receive variable power from the variable power source and output terminals providing a converted power to the variable impedance load based on the variable power received at the input terminals. The power converter increases the input voltage to an output voltage. The power converter is configured to reflect a source impedance of the variable power source to the variable impedance load. | 2014-06-19 |
20140167662 | Inverter Device - An inverter device that controls a motor using a signal from a position sensor for detecting a rotor rotational position of the motor includes an initial adjustment unit that outputs a phase of current for designating a motor rotational position by rotating the motor in a clockwise direction of the motor and a phase of current for designating the motor rotational position by rotating the motor in a counter-clockwise direction of the motor. | 2014-06-19 |
20140167663 | LOAD DRIVE CONTROL SYSTEM FOR HYBRID VEHICLE AND METHOD OF CONTROLLING HYBRID VEHICLE - A load drive control system for a hybrid vehicle includes a zero current control execution device and an error compensating device. The zero current control execution device is configured to control a converter to output a substantially constant raised voltage that is higher than an inductive voltage generated in an electric motor. The error compensating device is configured to compensate for an attachment error of a first position detector based on a d-axis voltage command value for the electric motor calculated during zero current control. | 2014-06-19 |
20140167664 | Method and Device for Synchronizing a Rotation Speed of a Rotor with a Rotation Field of a Stator - A method for synchronizing a rotation speed of a permanently excited rotor of an electric motor with a frequency of a rotation field of a sensorless commutated stator of the electric motor during a run-up procedure of the electric motor includes determining a phase position of the rotation field and a phase position of a countervoltage that is induced by the rotor in the stator in order to obtain a phase offset between the rotation field and the countervoltage. The method further includes adjusting a prevailing amplitude of one component of the rotation field using the phase offset to synchronize the rotation speed with the frequency. The amplitude of the component is increased if the rotor is lagging behind the rotation field or the amplitude of the component is reduced if the rotor is running ahead of the rotation field. | 2014-06-19 |
20140167665 | Safety Circuit and Emergency Power Supply for Gate Control Circuit - A power supply circuit can be used to provide an alternating-current supply voltage to an electric motor. The power supply circuit is supplied by line power. The power supply circuit includes a inverter including at least one pair of transistor for generating a corresponding phase of the plurality of power supply phases. The inverter includes a transistor control circuit for switching the low-side transistor to its conducting state and the high-side transistor to its non-conducting state in case an excess voltage is detected at the input of the inverter. | 2014-06-19 |
20140167666 | Systems and Methods for Reduction of Motor Jitter While Driving an Electric Motor - An apparatus for driving a motor comprises a drive signal generation circuit configured to produce pulses on a pulse-width modulated drive signal in response to a control signal. A detection circuit is coupled to receive a commutation signal from the motor to monitor the speed of the motor. A control signal generation circuit is configured to dynamically generate the control signal so that a frequency of pulse-width modulated drive signal corresponds with the duration of the phase of the motor, so as to reduce the occurrence of an incomplete pulse on the drive signal. Methods for driving a motor are also disclosed. | 2014-06-19 |
20140167667 | MOTOR DRIVING APPARATUS AND METHOD - There are provided a motor driving apparatus and method, the motor driving apparatus including a current detecting unit detecting a level of a driving current applied to a motor for each predetermined period, a current comparing unit comparing the level of the driving current detected by the current detecting unit in a previous period and the level of the driving current detected by the current detecting unit in a current period, and a controlling unit adjusting a level of a reference signal compared with a back electro motive force (BEMF) signal of the motor based on an output of the current comparing unit. | 2014-06-19 |
20140167668 | MOTOR DRIVING CONTROL APPARATUS, MOTOR DRIVING CONTROL METHOD, AND MOTOR USING THE SAME - There are provided a motor driving control apparatus, a motor driving control method, and a motor using the same. The motor driving control apparatus includes a driving signal generation unit, a back electromotive force detection unit, and a frequency controller. The driving signal generation unit may generate a driving control signal for controlling driving of a motor device. The back electromotive force detection unit may detect back electromotive force of the motor device. The frequency controller may provide control to estimate a zero crossing point of the back electromotive force, set a frequency modulation section including the zero crossing point, and modulate a frequency of the driving control signal during the frequency modulation section. | 2014-06-19 |
20140167669 | OFFSET COMPENSATION METHOD OF CURRENT SENSOR AND MOTOR DRIVING SYSTEM - An offset compensation method of a current sensor is provided for determining whether an offset compensation of the current sensor is abnormal, and a motor driving system includes the current sensor. The offset compensation method includes: compensating for an offset of the current sensor, and determining whether the offset compensation of the current sensor is abnormal. | 2014-06-19 |
20140167670 | Method and Device for the Cyclic Digital Transmission of a Position Value of a Moving Object with Inertial Mass - In a method and device for the cyclic digital transmission of a position value of a moving object with inertial mass, the value range of the transmitted position value is restricted such that no complete rotation or, in the case of a linear motion, other complete period caused by mechanical conditions may be mapped, and the actual position is formed by detecting value-range exceedances in an evaluation unit. | 2014-06-19 |
20140167671 | MOTOR POSITION CONTROLLER - A motor position controller includes a temporary setting portion, a position command generating device, a motor controlling part, and a second conformity determination portion. The motor position controller drives a motor based on an input of a command pulse signal and a setting of a desired pulse form. The temporary setting portion is configured to consecutively temporarily set a plurality of the pulse form settings following a predetermined order. The position command generating device is configured to generate a position command signal from the command pulse signal in accordance with the desired pulse form setting. The motor controlling part is configured to supply power to the motor based on the position command signal. The second conformity determination portion is configured to input the command pulse signal, input the pulse form setting temporarily set by the temporary setting portion. | 2014-06-19 |
20140167672 | SERVO CONTROLLER FOR CORRECTING POSITION ERROR WHEN MOVING MEMBER REVERSES - A servo controller ( | 2014-06-19 |
20140167673 | POWER SAVING DRIVING CIRCUIT INCLUDING POWER FACTOR CORRECTION FOR AN INDUCTION MOTOR - A power saving driving circuit for a motor including power factor correction comprises an induction motor; a power factor correction capacitor; a first switching element allowing the motor to operate in a positive sine wave period of an power supply voltage; a diode allowing the power factor correction capacitor to be charged during the first switching element being OFF; a second switching element allowing the motor to operate in a negative sine wave period of the power supply voltage; another diode allowing the power factor capacitor to be charged during the second switching element being OFF; a third switching element connected in parallel to the diode; a fourth switching element connected in parallel to the other diode; and a controller controlling the motor to save power by controlling the third and fourth switching elements when a charged voltage in the power factor correction capacitor reaches a predetermined set value. | 2014-06-19 |
20140167674 | SYSTEM FOR DETERMINING A MAGNETIZING CURVE AND ROTOR RESISTANCE OF AN INDUCTION MACHINE AND METHOD OF MAKING SAME - A system for identifying magnetizing inductance and rotor resistance of an induction machine comprises an induction machine comprising a rotor and a stator, a DC voltage bus, and a DC-to-AC voltage inverter coupled to the DC voltage bus and to the induction machine. The system also comprises a controller configured to cause the DC-to-AC voltage inverter to apply a square-wave excitation to a plurality of phases of the induction machine, determine a stator resistance of the stator of the induction machine based on the square-wave excitation, and determine a rotor resistance of the rotor of the induction machine based on the square-wave excitation. The controller is also configured to calculate a magnetizing curve for the induction machine based on the stator and rotor resistances and control the induction machine to operate based on the magnetizing curve. | 2014-06-19 |
20140167675 | SYSTEM FOR HOUSING AND POWERING A BATTERY-OPERATED DEVICE AND ASSOCIATED METHODS - An integral system for housing and powering a battery-operated device includes an integral case adapted to house the battery-operated device, at least one photovoltaic assembly adapted to releasably attach to the integral case, and a first device interface connector adapted to electrically couple the battery-operated device to the integral case. | 2014-06-19 |
20140167676 | BATTERY PACK HAVING A SEPARATE POWER SUPPLY DEVICE FOR A WIRELESS COMMUNICATION DEVICE OF THE BATTERY PACK - A battery pack has at least one chargeable battery cell, an electrical interface for charging the battery pack on an external charging unit, a communication device for wireless communication with an external charging unit, and an energy supply device that is independent of the battery cell for the energy supply of the communication device during an initial communication with the external charging unit. | 2014-06-19 |
20140167677 | LONG-LASTING, HIGH POWER DENSITY AND FLEXIBLE PHOTOVOLTAIC (PV) CRYSTALLINE CELL PANEL, A METHOD FOR MANUFACTURING THE SOLAR PANEL AND INTEGRATED SOLAR POWER GENERATION AND SUPPLY SYSTEM - No glass, thin, low weight, portable/semi-portable solar PV panels are described. They are not for larger, permanently fixed installations, but are for solarizing outdoor consumer/industrial products. Thin (<3-10 mm), high power density, solar PV panels, custom designed for each target product using commercially available, highest efficiency range (18-23%) solar PV crystalline cells, which are encapsulated without glass, by long life (10-15+ years), flexible and high transparency encapsulation materials. This new technology allows manufacturing of solar PV crystalline cell panels and systems that are surface mounted on flat- or multi-curved surfaces. The thin PV crystalline cell panels have these advantages: rugged, portable, flexible or rigid, lightweight and long-life (10-15+ years). The majority of these thin and flexible PV crystalline panel applications are mostly of mini-panel size (0.01-100 Wp) but large sized (over 500 Wp) panels can be made and mounted on multi-curved surfaces on electric vehicles (land, water, and air). | 2014-06-19 |
20140167678 | Recharging of a Pool of Batteries - Method for recharging a pool of batteries from a recharging device ( | 2014-06-19 |
20140167679 | ACCESSORY OR FASHION ITEM THAT CHARGES VARIOUS ELECTRONIC DEVICES - A toteable or wearable fashion item configured to provide an electronic charge to a mobile electronic device. The device includes a battery comprising one USB port and one pin port and a pouch secured to the fashion device and containing the battery substantially concealed therein, the pouch defining at least one opening which facilitates access to the USB port and the pin port. | 2014-06-19 |
20140167680 | SYSTEM AND METHOD FOR PERIODICALLY CHARGING SUB-BATTERY FOR ELECTRIC VEHICLE - Provided is a system method for periodically charging a sub-battery for an electric vehicle. In this method, an SOC self-discharge rate of the sub-battery is calculated. An LDC output voltage and a charging time of the sub-battery are set using the SOC self-discharge rate of the sub-battery and information received from an IBS. It is determined whether or not an SOC of a main battery is equal to or greater than a set value. Periodic charging is performed on the sub-battery through an operation of an LDC when the SOC of the main battery is equal to or greater than the set value. | 2014-06-19 |
20140167681 | CURRENT REGULATION SYSTEM - A current regulation system for generating a charging current curve for charging a rechargeable battery is provided, the system including a current regulation module coupled to a power converter to output a conversion current in a constant current mode and a constant voltage mode, a voltage-to-current regulation module coupled to the rechargeable battery to output a voltage conversion current in the constant voltage mode, a temperature-to-current regulation module and a resistance. The temperature-to-current regulation module outputs a temperature conversion current in the constant current mode and the constant voltage mode. The resistance is coupled to the current regulation module, the voltage-to-current regulation module and the temperature-to-current regulation module to regulate the voltage conversion current or the temperature conversion current, the conversion current is weakened by maintain a constant value so the charging current curve is regulated when the power of the rechargeable battery is full. | 2014-06-19 |
20140167682 | USB Power Supply - A power supply system effective to provide power to a plurality of different personal electronic devices includes a source of AC or DC power, a power converter effective to convert the AC or DC power to a useable voltage and amperage, a remote power outlet or a plurality of remote power outlets each configured to receive one or more connectors and a signal decoder. The signal decoder determines the requirements of a connected one of the personal entertainment devices and personal computing devices and apply the requirements to the power outlet for powering the device. | 2014-06-19 |
20140167683 | MULTIPLE CELL BATTERY MANAGEMENT - A method and system to manage battery pack having a plurality of rechargeable battery cells connected in series is disclosed. The system comprises a plurality of identical voltage detection and charging modules, one for each of the plurality of battery cells. The system also comprises a multiplexer connected to and multiplexing each of the voltage detection and charging modules. Each of the modules has one or two wires connecting to the positive side of its corresponding battery cell and another set of one or two wires connecting to the negative side of the battery cell. | 2014-06-19 |
20140167684 | SHUNT CIRCUIT, CHARGING SYSTEM AND INTEGRATED CIRCUIT - A shunt circuit includes: a shunt resistor; a transistor connected in parallel to a storage element via the shunt resistor; a first OP amplifier configured to compare a battery voltage supplied to the storage element with a detection voltage; and a second OP amplifier configured to shunt a shunt current from a charging current supplied from a charging unit when the battery voltage reaches the detection voltage. The detection voltage is increased step by step, and the shunt current is increased whenever the battery voltage reaches the detection voltage. | 2014-06-19 |
20140167685 | METHOD AND SYSTEM FOR EQUALIZING AND MATCHING LITHIUM SECONDARY BATTERIES - In the present invention, a method and system for equalizing and matching lithium secondary batteries belong to the field of secondary batteries. A lithium secondary battery is divided into more than one grade according to the magnitude of a consumable current Ic, the number of grades is h, the lithium secondary battery is divided into grades corresponding to the consumable current according to the magnitude of a voltage difference ΔV, a battery cell at a grade same as that of the consumable current and the voltage difference is selected for matching, so the range of the consumable current of the battery group can be controlled. The battery system configured in the method of the present invention converts consumable current grading into voltage difference grading after laying, so as to be convenient and swift; the range of the consumable current of the battery cell, the laying time, the equalization charging period, the equalization current, and the charger cutoff current are all under control, and are matched with each other, the equalization cost is low, and the charging equalization time is short; the laying service life and the maintenance period of the battery group can be designed or predicted during matching, and how many times of charging/discharging is required to charge the battery group to be balanced after the battery group is laid for an extremely long time is estimated in advance; the battery group reject rate is reduced, and the battery group reliability is improved. | 2014-06-19 |
20140167686 | CONTENT DOWNLOAD AND SYNCHRONIZATION - Methods, systems, and apparatus for a network-enabled power charging device comprising a processor and a computer readable medium coupled to the processor having instructions stored thereon which, if executed by the processor, cause the network enabled power charging device to perform operations comprising charging, using the network-enabled power charging device, an energy storage component of a user device, determining, by the network-enabled power charging device, a profile associated with the user device, accessing, by the network-enabled power charging device and based on determining the profile associated with the user device, content specified by the profile associated with the user device, loading, using a network interface, the specified content, and enabling, by the network-enabled power charging device, the user device to access the specified content. | 2014-06-19 |
20140167687 | DEDICATED POWER SUPPLY APPARATUS, TERMINAL, POWER SUPPLY SYSTEM, AND POWER SUPPLY METHOD - A dedicated power supply apparatus includes a regulator that receives power from an external power source, two signal lines to which the regulator is connected, and two resistors, each placed between the regulator and an associated one of the two signal lines. | 2014-06-19 |
20140167688 | WIRELESS CHARGING SYSTEM - A wireless charging system includes a microelectronic package ( | 2014-06-19 |
20140167689 | VEHICLE ELECTRIC POWER FEEDING SYSTEM - A vehicle electric power feeding system that is provided with an electric power feeding device ( | 2014-06-19 |
20140167690 | WIRELESS CHARGING BATTERY MODULE AND CHARGING STRUCTURE OF THE SAME - A wireless charging battery module and a charging structure of the same are revealed. The battery module includes a battery and a charging unit while the charging unit having a looped wire and a charging circuit. The charging unit is electrically connected to the battery. The charging structure consists of the battery module and a wireless charger. The wireless charger includes a charger board and the charger board is arranged with another looped wire. The looped wire is corresponding to the looped wire of the charging unit. Electromagnetic induction between the looped wire of the charging unit and the looped wire of the wireless charger occurs so that power stored in the wireless charger is output to the battery module in a wireless manner and the battery is charged by the charging circuit. The battery of the battery module is also charged wirelessly. | 2014-06-19 |
20140167691 | VEHICLE, CHARGING SYSTEM AND CONTROL METHOD FOR VEHICLE - In a vehicle, a power storage device mounted thereon can be charged with electric power transmitted from an external power supply device via a power cable. The vehicle includes a PLC communication unit for establishing PLC communication with the external power supply device via the power cable. An ECU starts transmission of a signal from the PLC communication unit to the external power supply device in response to connection of the power cable to an inlet. When a response from the external power supply device to the signal is not received, the ECU switches a CCID provided in the power cable or the external power supply device to a state in which supply of the electric power is possible, and thereafter, retransmits the signal from the PLC communication unit to the external power supply device. | 2014-06-19 |
20140167692 | AUTO-RESETTABLE SEISMIC SENSOR FOR EVCS - An EVCS equipped with an accelerometer to detect seismic events. Upon sensing a catastrophic environmental event, the EVCS is automatically disconnected from the main utility power source. A controller powered by a backup or alternate power source inside the EVCS monitors the seismic activity, and upon sensing the seismic event is over, the EVCS automatically performs a startup check. If utility power is present and the self-check passes, the EVCS resets and provides power from the main utility to the charging connector. If the EVCS is operable but utility power is unavailable, the EVCS switches to a generator or a UPS. The EVCS can provide multiple power outlets, including USB outlets, and emergency lighting. The EVCS can also be retrofitted or constructed with a communications interface for communicating status and operational information following a seismic event. | 2014-06-19 |
20140167693 | MOUNTING SYSTEM FOR CHARGING EQUIPMENT - A surface mountable charging device connectable to a power receptacle for charging an electrically powered vehicle is disclosed. The charging device comprises a housing and a first locking portion defining a first locking aperture. The device also comprises an electric charging circuit to supply current to an electric vehicle power storage device, and includes a power connector electrically coupled to the electric circuit, configured for a releasable electrical connection with the power receptacle. The device further includes a mounting base mountable to the mounting surface, comprising a first coupling portion defining a coupling aperture to operatively receive the power connector. The mounting base also comprises a second locking portion defining a second locking aperture. The housing is coupled to the mounting member and the first and second locking apertures cooperate with a locking element to prevent a de-coupling of the housing from the mounting member. | 2014-06-19 |
20140167694 | Fast Charging System for Electric Vehicles - The embodiments described and claimed herein are apparatus, systems, and methods for charging an electric vehicle at a stationary service station. In one embodiment, the service station includes a power generation component including at least one fuel cell, a fuel supply component for supplying fuel to the power generation component, a charging component including at least one customer charging station, and a control component for controlling and monitoring the other components and for providing accounting and billing functions. | 2014-06-19 |
20140167695 | LOCK DEVICE - A lock device locks a locking subject to a power port. The lock device is provided with a lock mechanism including a lock member that is movable between a lock position and an unlock position. The lock mechanism moves the lock member to the lock position to lock the locking subject and moves the lock member to the unlock position to unlock the locking subject. A location registration unit registers, as a registered location, a location where switching of the locking subject between a lock state and an unlock state is prohibited or permitted. A location acquisition unit acquires a present location of the lock device. A switching control unit compares the present location with the registered location and controls the lock mechanism based on the comparison to switch the locking subject between the lock state and the unlock state. | 2014-06-19 |
20140167696 | LOCK DEVICE - A lock device includes an inlet arranged in a vehicle and having an inlet housing into which a charge cable is insertable. A lock mechanism is capable of locking the charge cable to the inlet. The lock device includes a lock mechanism attachment portion arranged in the inlet housing and enabling attachment of the lock mechanism to the inlet housing. | 2014-06-19 |
20140167697 | ELECTRIC BATTERY CHARGING INSTALLATION AND METHOD - An installation and a method for charging an electric battery for an electric vehicle. The electric vehicle comprises an on-board computer. The installation comprises a main power source delivering a charging power Pc1. The charging method comprises the step of determining the charging power Pc to be delivered to the electric battery in relation to a charging voltage and/or current set point demanded at an instant t by the onboard computer. The charging power is compared against the charging power Pc1 delivered by a main power source. If Pc>Pc1, at least one auxiliary power source delivering a charging power Pc2 is utilized in addition to the main power source such that the sum of the charging powers delivered by the power sources is equal to the charging power Pc. | 2014-06-19 |
20140167698 | BATTERY BLOCK, AND POWER SOURCE SYSTEM - A battery block for use in a power source system including battery blocks is provided with: a secondary battery; a communication circuit which outputs voltage information outside, the voltage information relating to a terminal voltage Vt of the secondary battery; a communication circuit which acquires the voltage information output from another battery block as other voltage information; and a discharge controller which discharges the secondary battery in a host battery block when a host voltage, which is the terminal voltage Vt of the secondary battery in the host battery block, is higher than a terminal voltage indicated by the other voltage information. | 2014-06-19 |
20140167699 | BATTERY CYCLING AND MANAGEMENT - An aspect provides a method, including: setting a battery pack, in an information handling device having two or more battery packs, as a priority battery pack; discharging the priority battery pack and maintaining one or more other battery packs in an idle state; ascertaining if the priority battery pack satisfies one or more conditions; and in response to the priority battery pack satisfying the one or more conditions, setting one of the one or more other battery packs to be the priority battery pack and maintaining the remaining battery packs in an idle state; wherein the priority battery pack is prioritized in terms of charging. Other aspects are described and claimed. | 2014-06-19 |
20140167700 | POWER CONSUMPTION REDUCTION METHOD FOR A STORED BATTERY - A power consumption reduction method controls a rechargeable battery to enter a sleep mode after the electronic system is shutdown with the output current of the rechargeable battery falling under a first current value or the rechargeable battery is in a non-communication status for over a first delay time. When in the sleep mode, a control unit further controls the rechargeable battery to enter a power saving mode when the output voltage of the rechargeable battery falls under a predefined voltage or the RSOC of the rechargeable battery is lower than a percentage of FCC, and the output current of the rechargeable battery falls under a second current value or the rechargeable battery is in the non-communication status for over a second delay time. The method shuts down all power-consuming circuits and components under long-time idling of the battery, capable of preventing overly discharging and malfunction of the rechargeable battery. | 2014-06-19 |
20140167701 | Power Converter and its Control Method - The invention provides a power converter including a plurality of power conversion units each connected to a different feeder, a DC energy interchange unit connected to the power conversion units and connected to a secondary battery, and a power control unit which instructs the regeneration-side power conversion unit connected to the regeneration-side feeder of the feeders, through which a regenerative current flows, and the consumption-side power conversion unit connected to the consumption-side feeder through which a current consumption flows, to output power from the regeneration-side feeder to the consumption-side feeder through the DC energy interchange unit. The power control unit also determines the voltage of the DC energy interchange unit in such a manner as to input/output energy corresponding to the sum of regenerative power of the regeneration-side feeder and consumed power of the consumption-side feeder to and from the secondary battery. | 2014-06-19 |
20140167702 | CHARGING AND DISCHARGING CONTROL CIRCUIT AND BATTERY DEVICE - There are provided an overcurrent protection circuit which has a smaller circuit area, a charging and discharging control circuit, and a compact battery device. The charging and discharging control circuit includes an overcurrent detection circuit which monitors the voltage of an overcurrent detection resistor connected to an overcurrent detection terminal and which detects the flow of an overcurrent into a secondary battery, an overcurrent release circuit which monitors the voltage at a terminal to which a load is connected through a voltage step-down circuit connected to an overcurrent release terminal and which detects the removal of a load, and a clamping circuit connected to the overcurrent release terminal are provided. The voltage at the overcurrent release terminal is clamped by the voltage step-down circuit and the clamping circuit. | 2014-06-19 |
20140167703 | Dynamic Line Termination of Communication Buses in Monitoring Circuits for Battery Modules and a Method for Performing the Line Termination during the Initialization of the Monitoring System - A monitoring circuit for a battery module includes at least two terminals configured to be connected to bus lines of a bus system, a series circuit having a line terminating resistor, and a switching device. Ends of the series circuit are in each case electrically connected to one of the two terminals. | 2014-06-19 |
20140167704 | NONLINEAR SYSTEM IDENTIFICATION FOR OBJECT DETECTION IN A WIRELESS POWER TRANSFER SYSTEM - A method of detecting whether a foreign object is near a transmit coil in a wireless power transfer system (WPTS), the method involving: applying a pseudo-random signal to the transmit coil; while the pseudo-random signal is being applied to the transmit coil, recording one or more signals produced within the WPTS in response to the applied pseudo-random signal; by using the one or more recorded signals, generating a dynamic system model for some aspect of the WPTS; and using the generated dynamic system model in combination with stored training data to determine whether an object having characteristics recognizable from the stored training data as characteristic of the foreign object is near the transmit coil. | 2014-06-19 |
20140167705 | METHOD OF CHARGING BATTERY - A method of charging a battery includes following steps: First, a charging voltage is provided to charge the battery. Afterward, a charging control variable is judged whether to reach to an adjustment value. Afterward, the charging voltage is adjusted with a first voltage difference to continuously charge the battery when the charging control variable reaches to the adjustment value. Afterward, a health state value of the battery is judged whether less than or equal to a critical health state value. Finally, the charging voltage is increased with a second voltage difference to continuously charge the battery when the health state value of the battery is less than or equal to the critical health state value. | 2014-06-19 |
20140167706 | CHARGING METHOD FOR A RECHARGEABLE BATTERY AND CHARGING ARCHITECTURE THEREWITH - A charging method for a rechargeable battery and a related charging architecture are provided. The provided charging method includes following steps. A characteristic curve of the rechargeable battery related to charge cycle vs. a residual capacity of a non-constant voltage charging stage under a warranty life limitation is provided. An expected residual capacity corresponding to a condition when a terminal voltage of the rechargeable battery reaches a limited charge voltage is found from the characteristic curve related to the charge cycle vs. the residual capacity of the non-constant voltage charging stage by using a current charge cycle count of the rechargeable battery. A real residual capacity corresponding to a condition when the terminal voltage of the rechargeable battery reaches the limited charge voltage approaches to the expected residual capacity by adjusting a charging current of the rechargeable battery. | 2014-06-19 |
20140167707 | ALTERNATOR CONTROL FOR BATTERY CHARGING - In accordance with an aspect of the present disclosure, an electrical system for an automotive vehicle has an electrical generating machine and a battery. A set point voltage, which sets an output voltage of the electrical generating machine, is set by an electronic control unit (ECU). The ECU selects one of a plurality of control modes for controlling the alternator based on an operating state of the vehicle as determined from vehicle operating parameters. The ECU selects a range for the set point voltage based on the selected control mode and then sets the set point voltage within the range based on feedback parameters for that control mode. In an aspect, the control modes include a trickle charge mode and battery charge current is the feedback parameter and the ECU controls the set point voltage within the range to maintain a predetermined battery charge current. | 2014-06-19 |
20140167708 | POLYPHASIC MULTI-COIL GENERATOR - A polyphasic multi-coil generator includes a driveshaft, at least first and second rotors rigidly mounted on the driveshaft so as to simultaneously synchronously rotate with rotation of the driveshaft, and at least one stator sandwiched between the first and second rotors. The stator has an aperture through which the driveshaft is rotatably journalled. A stator array on the stator has an equally circumferentially spaced-apart array of electrically conductive coils mounted to the stator in a first angular orientation about the driveshaft. The rotors and the stator lie in substantially parallel planes. The first and second rotors have, respectively, first and second rotor arrays. | 2014-06-19 |
20140167709 | METHOD FOR CONTROLLING A CYCLOCONVERTER, ELECTRONIC CONTROL DEVICE THEREFOR, CYCLOCONVERTER, AND COMPUTER PROGRAM - A cycloconverter has six converter branches connected in series, and said converter branches have energy stores. A method for controlling the cycloconverter connecting a first three-line network to a second three-line network includes controlling the converter operation by controlling energy transfer from the first three-line network to the second three-line network or vice versa according to energy demand criteria, energy supply criteria, and/or reactive power criteria, and by controlling the amount of electrical energy stored in each converter or by controlling an electrical variable that characterizes the amount of electrical energy to a specified target range. The invention further relates to an electronic control device for such a cycloconverter, and to a computer program for carrying out the method. | 2014-06-19 |
20140167710 | DC/DC Converter with Shunt Circuitry - The present disclosure provides, in one embodiment, a method of shunting a power supply to reduce output ripple. The method includes determining at least one performance parameter of a DC/DC converter circuit; generating a first reference signal, wherein the first reference signal is based on the performance parameter; comparing the first reference signal to the performance parameter; and generating a shunt current from an input power source to an output node of the DC/DC converter circuit based on, at least in part, the comparison of the performance parameter and the first reference signal. | 2014-06-19 |
20140167711 | METHOD AND APPARATUS OF CURRENT BALANCING FOR MULTIPLE PHASE POWER CONVERTER - In some embodiments described herein, proposed schemes utilize a duty-cycle sensing technique to detect load current imbalance in each individual inductor, and then adjusts the duty cycles for the specific phases through a digital duty cycle tuner. | 2014-06-19 |
20140167712 | METHOD AND APPARATUS FOR CONTROLLING CONVERTER IN FULL CELL VEHICLE - A method and apparatus for controlling a converter of a fuel cell vehicle that uses a power control value generated based on an inverter DC terminal voltage as a reference value, and generates a current reference signal based on the reference value is provided. More specifically, the method and apparatus output a final reference signal that generates a pulse width modulation (PWM) signal by compensating for the current reference signal based on output terminal current of the converter. A peak value is then increased by amplifying a triangular wave signal, and the amplified triangular wave signal and the compensated final reference signal according to the current reference signal change rate are compared. A PWM signal having a predetermined duty ratio is then generated to control the converter. | 2014-06-19 |
20140167713 | REGULATOR AND VOLTAGE GENERATOR - A regulator includes an input voltage adjusting unit configured to adjust a pumping voltage in response to a control signal varied depending on a target voltage and output the adjusted pumping voltage and a regulation unit configured to output the target voltage by regulating the adjusted pumping voltage. The regulator may reduce current consumption by adjusting the pumping voltage inputted according to the target voltage. | 2014-06-19 |
20140167714 | SOFT-START CIRCUITS AND POWER SUPPLIERS USING THE SAME - A soft-start circuit is provided. The soft-start circuit generates an output voltage at an output terminal. The soft-start includes a transistor, a capacitor, and a current source. The transistor has a first terminal receiving an input voltage, a second terminal coupled to the output terminal, and a control terminal. The capacitor is coupled between the second terminal and the control terminal of the transistor. The current source is coupled between the control terminal of the transistor and a ground terminal. The capacitor and the current source modulate the output voltage by modulating a driving voltage at the control terminal to perform a soft-start operation of the output voltage. | 2014-06-19 |
20140167715 | POWER CONVERTER FOR GENERATING BOTH POSITIVE AND NEGATIVE OUTPUT SIGNALS - A power converting system is responsive to an input signal to produce an output signal regulated with respect to the input signal. The power converting system has an input node for receiving the input signal, an output node for producing the output signal, and first and second inductive elements. The first inductive element has a first node coupled to the input node, the second inductive element has a first node coupled to the output node. A first switching element is coupled to a second node of the first inductive element. A first capacitive element is coupled between the second node of the first inductive element and a second node of the second inductive element. A control circuit is provided for controlling the first switching element. The control circuit is configured to set a duty cycle of the first switching element to a first value for providing the output signal of a first polarity in response to the input signal of the first polarity, and to set the duty cycle of the first switching element to a second value for providing the output signal of a second polarity in response to the input signal of the first polarity. | 2014-06-19 |
20140167716 | DC-DC Converter, Timing Signal Generating Circuit, and Operating Method Thereof - A DC-DC converter including an output stage, a feedback loop, a pulse-width modulation (PWM) generating circuit, and a driving circuit is disclosed. The output stage is coupled to an input voltage and an output inductor to provide an output voltage. The feedback loop is coupled to the output inductor and receives the output voltage to generate a control signal. The PWM generating circuit is coupled to the feedback loop and receives the control signal. The PWM generating circuit also includes a timing signal generating unit which makes the PWM generating circuit to generate a PWM signal according to a correction voltage. The correction voltage is reacted in the output voltage and a first current source related to the input voltage. | 2014-06-19 |
20140167717 | DC/DC CONVERTER AND DISPLAY DEVICE INCLUDING THE SAME - The present invention is directed to sufficiently reduce the level of EMI which occurs from a switching FET in a DC/DC converter and minimize deterioration in efficiency of a power supply. A DC/DC converter includes a switching circuit for driving a switching FET for increasing or decreasing voltage, and a switching circuit for driving a ringing frequency changing circuit. One end of a capacitor is connected to a drain of the switching FET for increasing or decreasing voltage, and the other end of the capacitor is connected to a drain of an FET for the ringing frequency changing circuit. A source of the FET for the ringing frequency changing circuit is connected to GND, and a control circuit is provided which makes the ringing frequency changing circuit valid so that a ringing frequency becomes low only in a ringing frequency component exerting large influence on deterioration in EMI. | 2014-06-19 |
20140167718 | VOLTAGE GENERATOR - A voltage generator is disclosed. The voltage generator includes an operational amplifier, an offset voltage tuner, and an output stage circuit. The operational amplifier receives an input voltage and adjusts an offset voltage of the operating amplifier according to a control signal. The offset voltage tuner provides the control signal. The output stage circuit generates an output voltage according to a voltage on an output terminal of the operational amplifier, and provides the output voltage to the operational amplifier. | 2014-06-19 |
20140167719 | VOLTAGE GENERATION CIRCUIT - A voltage generation circuit is provided, which includes a pumping unit generating a high voltage and a voltage regulation unit controlling the pumping unit to generate a target voltage in a first mode and controlling the pumping unit to generate a reserve voltage and generating the target voltage through down conversion of the reserve voltage in a second mode. | 2014-06-19 |
20140167720 | POWER CONTROL DEVICE WITH SNUBBER CIRCUIT - An energy-efficient power control device, which employs a snubber circuit only during the risk of voltage spikes during fast switching, includes a buck converter, a power supply unit (PSU), a peak detecting circuit, a snubber circuit, and a logic circuit. The power control device supplies power to an input terminal of an electronic device. The snubber circuit is connected to the buck converter. The logic circuit is connected between the peak detecting circuit and the snubber circuit and determines whether the buck converter is under the heavy load or a light load according to the voltage, and connects the snubber circuit when the buck converter is under the heavy load, and disconnects the snubber circuit when the buck converter is under the light load. | 2014-06-19 |
20140167721 | POWER SUPPLY DEVICE - A power supply device includes: a first transistor that switches a first current flowing between a first terminal and a second terminal of the first transistor; a second transistor that has a first terminal connected to the first terminal of the first transistor and a control terminal connected to a control terminal of the first transistor and is formed in a chip in which the first transistor is formed; a current source that supplies a second current between the first and second terminals of the second transistor; and a control part that performs a turn-on and turn-off control of the first transistor on the basis of voltages of the second terminals of the first and second transistors. | 2014-06-19 |
20140167722 | SYNCHRONOUS DC-DC CONVERTER - Disclosed is a synchronous DC-DC converter including: a clock signal generator which generates a clock signal; a gate driving part which is connected to the clock signal generator and outputs a first delay clock signal and a second delay clock signal with respect to the clock signal; a switching part which is connected to the gate driving part and includes a first switching element and a second switching element which are complementarily switched according to each of the first delay clock signal and the second delay clock signal; and a controller which is connected to the switching part and generates a control signal which is usable by the gate driving part in order to control a dead time between the first switching element and the second switching element. | 2014-06-19 |
20140167723 | Switching Regulator - A switching regulator includes a lower gate switch and a transient help module. The lower gate switch is utilized for turning on and turning off according to a lower gate control signal. The transient help module includes a load detecting unit, for outputting a detecting signal according to a variation of a load, and a logic circuit, for generating the lower gate control signal according to the detecting signal, to turn off the lower gate switch when the load decreases. | 2014-06-19 |
20140167724 | SELF-POWERED SOURCE DRIVING CIRCUIT AND SWITCHING POWER SUPPLY THEREOF - In one embodiment, a source driving circuit configured for a switching power circuit, can include: (i) a source transistor coupled between a source of a main power transistor and ground, where the source transistor can be controlled by a PWM control signal; (ii) the main power transistor being on when the source transistor is on and a gate-source voltage of the main power transistor exceeds a conduction threshold voltage; (iii) a source diode having an anode coupled to the main power transistor source, and a cathode coupled to a delay circuit and a power supply capacitor; and (iv) the delay circuit controlling the main power transistor to turn off a delay time after the source transistor is turned off, where the delay time allows charging of the power supply capacitor such that a voltage across the power supply capacitor is at least a level of a reference voltage. | 2014-06-19 |
20140167725 | CURRENT CONTROL CIRCUIT AND METHOD - The invention provides a current control circuit and a current control method. The current control circuit controls a current supplied to a current-controlled device according to a conduction control signal. The current control circuit includes: a conduction control switch coupled to the current-controlled device, for determining whether to conduct the current according to the conduction control signal; and a plurality of current control switches connected to one another in series and coupled to the conduction control switch, for controlling a magnitude of the current. | 2014-06-19 |
20140167726 | ENERGY STORAGE ARRANGEMENT AND ALTERNATING LOAD CONSUMER - An energy storage arrangement for an electric load which exchanges electrical power with an energy supply network, has two connections in the form of a load to the parallel circuit and for the energy supply network, a converter which is switched between the connections, is voltage-impressed and contains an energy store. The energy store is designed to store an energy amount which exceeds that necessary for the regular operation of the converter by a multiple. An arc furnace which is fed as a load from an energy supply network contains such an energy storage arrangement. | 2014-06-19 |
20140167727 | Power Control System - A power control system includes a first switch configured to receive electrical power from a power source and selectably provide the electrical power to a load. A current limiter is intermediate the first switch and the load. A second switch is also configured to receive electrical power from the power source and selectably provide electrical power to the load. The power control system includes a soft-start operating mode wherein the first switch is activated to provide the electrical power to the load, current provided to the load being limited by the current limiter. The second switch is also activated to provide the electrical power to the load, the second switch being activated a predetermined period of time after activation of the first switch. The first and second switches are also deactivated while the voltage of the power source exceeds a predetermined level. | 2014-06-19 |
20140167728 | MULTIPLE-LEVEL POWER CONTROL SYSTEM - A multiple-level power control system is provided, which includes a power state controller, an electric power device, and a multi-level power driver. The power state controller outputs a phase-notch pattern. The multi-level power driver drives the electric power device at one of a plurality of power levels, decodes the phase-notch pattern as a power step command, and switches from one of the power levels to another one of the power levels according to the power step command. | 2014-06-19 |
20140167729 | SYSTEMS AND METHODS FOR LOCATING A CIRCUIT - Systems and methods presented herein are generally directed to the location and/or identification of a circuit within a circuital system. In one embodiment, a transmitter is configured for inducing signals upon a plurality of circuit lines (e.g., power lines, communication lines, lighting circuits, etc.) with each circuit line having a unique signal to identify it from other circuit lines. Each signal may be induced upon an individual circuit line by means of a inductive coupling clip coupled about the circuit line. The transmitter may be used at a distribution point of the circuit lines, such as circuit breaker box. A receiver can then receive a signal from a distal point on the circuit line to acquire the unique signal induced thereon and identify determine which inductive coupling clip is coupled thereto. For example, the signal may be decoded to display a number of the circuit line being tested. | 2014-06-19 |
20140167730 | Method and Device for Monitoring Contacts of a Rotating Component of a Textile Machine - A method for monitoring contact of a rotating component of a textile machine, in particular of a clothing roller of a card, for example a card cylinder, with a further component of the textile machine. The two components are connected to an electrical power source, but are normally electrically isolated from each other, and only in the case of a contact between the two components, a short-circuit is generated, which is detected by the monitoring device. The duration of individual short-circuits per time unit (T) is detected and summed up so as to form a total duration (t) of all short-circuits per time unit (T). | 2014-06-19 |
20140167731 | DETERMINING THE DOPANT CONTENT OF A COMPENSATED SILICON SAMPLE - Method for determining dopant impurities concentrations in a silicon sample involves provision of a silicon ingot including donor type dopant impurities and acceptor type dopant impurities, a step for determining the position of a first area of the ingot in which a transition takes place between a first conductivity and a second opposite conductivity types, by subjecting ingot portions to chemical treatment based on hydrofluoric acid, nitric acid and acetic acid, enabling defects to be revealed on one of the portions corresponding to the transition between the first conductivity and the second conductivity types, a step of measuring the concentration of free charge carriers in a second area of the ingot, different from the first area, and a step for determining concentrations of dopant impurities in the sample from the position of the first area and the concentration of free charge carriers in the second area of the ingot. | 2014-06-19 |
20140167732 | Micromechanical Electric Field Meter as a Thunderstorm Warning Device - A micromechanical structure, in particular a micromechanical electric field meter as a thunderstorm warning device, for detection of an electric field, comprising a substrate having a principal extension plane, a first electrode, a second electrode, and a drive assemblage for producing a relative motion of the second electrode with respect to the first electrode into an overlapping position, the first electrode and the second electrode being, in the overlapping position, disposed above one another in a projection direction extending perpendicularly to the principal extension plane of the substrate, wherein the second electrode has a defined potential for shielding the first electrode with respect to the electric field in the overlapping position. | 2014-06-19 |
20140167733 | SYSTEM AND METHOD FOR VOLTAGE AND CURRENT SENSING - In accordance with one aspect of the present disclosure, a current sensor configured to measure an AC current of a first conductor includes an outer coil having a first portion and a second portion. Each of the first and second portions are disposed about the first conductor passing through a center of the outer coil. The current sensor further includes an inner conductor disposed within the first and second portions of the outer coil and connected to each of the first and second portions of the outer coil. | 2014-06-19 |
20140167734 | METHOD AND DEVICE FOR DETECTING AIRCRAFT RADIO SIGNALS TRANSMITTED IN THE SAME CHANNEL SIMULTANEOUSLY - A method for detecting at least two amplitude-modulated transmitted signals contained in a received signal within the same frequency channel with respectively different frequency displacement determines from the received signal a modified received signal by means of a nonlinear signal processing. Following this, the spectrum of the modified received signal is determined by means of Fourier transform, and at least two transmitted signals contained in the received signal are detected if at least two first spectral lines each associated with carrier signals are significantly distinguishable within the determined spectrum from spectral components associated with noise signals and payload signals. | 2014-06-19 |
20140167735 | IDENTIFYING PHASE CONNECTIONS IN AN ELECTRIC DISTRIBUTION SYSTEM - Electrical power may be delivered to nodes in a network with a phase that is selected from a plurality of phases. According to various embodiments, the phase with which electrical power may be delivered to a particular node may be determined by varying, or identifying a variation in, the voltage of the electrical power that is delivered to a subset of nodes that is associated with a known phase. A variation in a voltage of the electrical power that is received by the particular node may also be identified. The phase with which the particular node is associated may be determined by correlating the identified voltage variation in the electrical power delivered to the subset of nodes that is associated with the known phase with the identified voltage variation in the electrical power received by the particular node. | 2014-06-19 |
20140167736 | Current Sensor Substrate and Current Sensor - It is intended to reduce manufacturing cost in a current sensor including a primary conductor having a U-shaped current path. A current sensor includes a primary conductor having a U-shaped current path, a support portion for supporting a magneto-electric conversion element, and a lead terminal connected to the support portion, and wherein the current path is not overlapped with the support portion in a plan view, while being formed so as to have a height different from that of the support portion in a side view. | 2014-06-19 |
20140167737 | AC DETECTION CIRCUIT AND OPERATING METHOD THEREOF - There are provided an alternating current (AC) detection circuit and an operating method thereof. The AC detection circuit includes: a power supply unit outputting an AC signal; a filter unit connected to the power supply unit to block a serial signal component; and a detection circuit unit including at least one switching element turned on or turned off according to an output signal from the filter unit, and detecting whether the AC input signal has been input according to an operation of the at least one switching element. | 2014-06-19 |
20140167738 | Electric Meter Base Level Printed Circuit Board - Techniques for construction of an electric meter base level printed circuit board (PCB), such as for use in an electric consumption meter, are described herein. A plurality of heavy copper traces may be embedded in the PCB, thereby eliminating the need for heavy copper bar between connectors and components on the board. In one example, a PCB includes connectors for incoming and outgoing line and neutral conductors. The PCB may include a current measuring component, mounted on the PCB, to communicate with metrology circuitry. The PCB may include one or more switches, configured to regulate electrical service. Heavy electrical traces may be embedded in the PCB to connect the connectors and various components mounted on the PCB. The heavy electrical traces are sized to allow passage of currents that may be in excess of 100 amps. | 2014-06-19 |
20140167739 | CURRENT DETECTING CIRCUIT BOARD - A circuit board with a current detecting circuit includes an inductor, two short pads, and an integrated chip. The inductor is connected between a first electronic component and a second electronic component. One of the short pads is in tight contact with a first pin of the inductor, and the other of the short pads is in tight contact with a second pin of the inductor. The integrated chip is connected to the first pin and the second pin of the inductor via the two short pads. | 2014-06-19 |
20140167740 | SYSTEM AND METHOD FOR VOLTAGE AND CURRENT SENSING - A current sensor is disclosed. The current sensor includes a Rogowski coil disposed on a flexible printed circuit board with at least one active lead passing through the Rogowski coil. | 2014-06-19 |
20140167741 | WHEEL-SPEED SENSOR MOUNTING DEVICE - A wheel-speed sensor mounting device may be provided. The wheel-speed sensor mounting device includes a reducer case having a first mounting hole, a mounting shell mounted within the first mounting hole and having a first end extending into the reducer case and a second end, a wheel-speed sensor mounted within the mounting shell and having a first end extending out of the first end of the mounting shell and opposing to a sensing metal ring mounted in the reducer case and a second end having a lead-out wire, and a sealing member for sealing the second end of the mounting shell. The lead-out wire passes through the sealing member and extends out of the reducer case. | 2014-06-19 |
20140167742 | Magnetic Sensing Device - A magnetic sensing device including a U-shaped magnet with a pair of legs and a base defining a first interior channel and a distal plane. A sensor assembly in the first interior channel includes a sensor that extends above the distal plane. The magnet generates a first region of low or no flux above the distal plane in a first position of the magnet, a second region of low or no magnetic flux in the interior channel in a second position of the magnet, and a third region of magnetic flux above the distal plane in the second position of the magnet which causes the sensor to activate a control signal. The base includes steps and a second interior channel that opens into the first interior channel. | 2014-06-19 |
20140167743 | MOTOR - A motor includes a rotating shaft, a rotor that surrounds the rotating shaft, rotates along with the rotating shaft, and includes a drive magnet, and a sensing unit that surrounds the rotating shaft, is disposed over the rotor, and detects rotation of the rotor, wherein the sensing unit includes a sensing plate that includes a plurality of holes that are formed along with an edge of the sensing plate, a sensing magnet that is mounted on the sensing plate and is disposed closer to the rotating shaft than the plurality of holes, a first sensor that is disposed over the sensing plate and detects a change in the sensing plate, and a second sensor that is disposed over the sensing magnet and detects a change in the sensing magnet. | 2014-06-19 |
20140167744 | Detector Systems - A detection system comprising a plurality of magnetic field generators and a plurality of magnetic field detectors located adjacent to a detection area, and a control system arranged to generate magnetic field using the generators, and, for each of the generators, to make measurements of the magnetic field generated using each of the detectors, and processing means arranged to process the measurements to generate a data set characterising the detection area. | 2014-06-19 |
20140167745 | CORRECTING AND/OR PREVENTING ERRORS DURING THE MEASUREMENT OF COORDINATES OF A WORKPIECE - An arrangement measures coordinates of a workpiece and/or machines the workpiece. The arrangement has a first part and a second part that can be moved relative to the first part. The relative mobility of the first and second parts is specified in addition to a possible mobility of a probe that is optionally additionally fixed to the arrangement. The mobility of the probe is specified by a deflection of the probe from a neutral position during a mechanical probing of the workpiece for the purpose of measuring the coordinates. A measuring body is arranged on the first or second part, and at least one sensor is arranged on the other part, i.e. on the second or first part. The sensor generates a measurement signal corresponding to a position of the measuring body and thus corresponding to the relative position of the first and second part. | 2014-06-19 |
20140167746 | Inductive Position-Measuring Device - An inductive position-measuring device includes a scanning element and a graduation element that are movable relative to each other in a first direction. The scanning element includes exciter conductors and three receiver tracks. The first and the second receiver track are disposed at a distance relative to each other, and the third receiver track is located between the first and the second receiver track. The graduation element includes two graduation tracks which are disposed at a distance relative to each other, and which have different graduation periods. Furthermore, electromagnetic fields generated by the exciter conductors are able to be modulated by the graduation tracks, so that a relative position in the first direction is detectable by the first and the second receiver track, while a relative position in a second direction, which is oriented orthogonally with respect to the first direction, is detectable by the third receiver track. | 2014-06-19 |
20140167747 | WELDED PORTION QUALITY DETERMINING SYSTEM - A welded portion quality determining system includes a first plate and a second plate, a welded portion defined at a point where the first plate and the second plate are welded to each other. Magnetic field generators generate a magnetic field to be supplied to the welded portion, and magnetic pickup devices receive the magnetic field generated by the magnetized welded portion to sense the received magnetic field. | 2014-06-19 |
20140167748 | TUBING PROBE BOBBIN WITH PETAL - An apparatus and method for inspecting an elongate tubular member with an eddy current sensor inspection assembly including a bobbin is provided. The bobbin includes a shell defining a hollow interior and axially aligned openings at each end while supporting a sensor. A plurality of petals extend outwardly from the shell, and the petals are configured to position the bobbin concentrically within a tubular member as the bobbin is moved within the tubular member. The bobbin can be included in an inspection assembly with a probe head to support a sensor including at least one wire winding. A flexible shaft is connected to the probe head and transmits a motive force to move the probe head within the tubular member. The probe head includes a flexible tube, the bobbin supporting the sensor, and at least one centering bead mounted upon the flexible tube. | 2014-06-19 |
20140167749 | HALL SENSOR AND METHOD OF MANUFACTURING THE SAME - Disclosed herein are a Hall sensor and a method of manufacturing the Hall sensor. The Hall sensor includes: a flexible substrate in which a groove is formed; a magnetic field flux concentrator formed in the groove of the flexible substrate; an electrode that is patterned to contact the magnetic field flux concentrator; a passivation layer formed around the electrode; and a sensor layer stacked on the passivation layer. | 2014-06-19 |
20140167750 | CURRENT SENSOR - A current sensor includes: a lower housing; a lower magnetic core that is housed in the lower housing, and includes a first gap on which a first hall element for detection of a magnetic field is arrangeable; a central housing that detachably engages with the lower housing, and houses the lower magnetic core along with the lower housing; an upper magnetic core that is arranged on the central housing, and forms a ring structure for surrounding a conductor along with the lower magnetic core; and an upper housing that detachably engages with the central housing, and houses the upper magnetic core along with the central housing. | 2014-06-19 |
20140167751 | METHOD AND APPARATUS FOR COMPENSATING FOR GRADIENT DELAY IN MAGNETIC RESONANCE SCANNING SEQUENCE - In a method and MR scanning apparatus for compensating for gradient delay in the MR scanning sequence, a current gradient amplitude of the MR scanning sequence is determined. Based on the current gradient amplitude and a mapping between gradient delay and gradient amplitude, a current gradient delay corresponding to the current gradient amplitude is determined. The gradient delay in the MR scanning sequence is compensated according to the current gradient delay. | 2014-06-19 |
20140167752 | MAGNETIC RESONANCE IMAGING APPARATUS AND CORRECTION VALUE CALCULATION METHOD - In order to obtain a high-quality image even in multi-slice imaging in a UTE sequence that uses a half RF pulse, a refocusing pulse of the slice gradient magnetic field is adjusted and applied so that the excitation profiles of positive polarity data and negative polarity data have phase distributions that are 180 [deg] inverted with respect to each other in side lobe portions. In addition, the irradiation frequency of the half RF pulse is adjusted so as to eliminate a position shift between the intensity distributions of the positive polarity data and the negative polarity data. | 2014-06-19 |
20140167753 | DIFFUSION SPECTRUM IMAGING SYSTEMS AND METHODS - Systems and methods for generating a magnetic resonance (MR) image of a tissue are provided. A method includes acquiring MR raw data. The MR raw data corresponds to MR signals obtained at undersampled q-space locations for a plurality of q-space locations that is less than an entirety of the q-space locations and the MR signals at the q-space locations represent the three dimensional displacement distribution of the spins in the imaging voxel. The method also includes performing a joint image reconstruction technique on the MR raw data to exploit structural correlations in the MR signals to obtain a series of accelerated MR images and performing, for each image pixel in each accelerated MR image of the series of accelerated MR images, a compressed sensing reconstruction technique to exploit q-space signal sparsity to identify a plurality of diffusion maps. | 2014-06-19 |
20140167754 | Magnetic Resonance Fingerprinting (MRF) With Echo Splitting - Apparatus, methods, and other embodiments associated with nuclear magnetic resonance (NMR) fingerprinting using echo splitting are described. One example apparatus includes an NMR logic configured to repetitively and variably sample a (k, t, E) space associated with an object to acquire a set of NMR signals. Members of the set of NMR signals are associated with different points in the (k, t, E) space. Sampling is performed with t and/or E varying in a non-constant way. The varying parameters may include the number of echo splitting pulses, spacings between echo splitting pulses, flip angle of echo splitting pulses, echo time, RF amplitude, and other parameters. The NMR apparatus may also include a signal logic configured to produce an NMR signal evolution from the NMR signals, and a characterization logic configured to characterize a resonant species in the object as a result of comparing acquired signals to reference signals. | 2014-06-19 |