| 10th week of 2012 patent applcation highlights part 17 |
| Patent application number | Title | Published |
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| 20120056537 | EL DISPLAY DEVICE AND ELECTRONIC DEVICE INCLUDING THE SAME - An object is to suppress luminance variation due to change in the amount of current flowing through a light-emitting element, caused by change in environmental temperature. A monitor circuit for compensating the cathode potential of the light-emitting element in accordance with environmental temperature is provided in the vicinity of a pixel portion in order to compensate a change in properties, due to environmental temperature, of a transistor including an oxide semiconductor layer and the light-emitting element. The monitor circuit includes a monitor power supply line, a monitor transistor including an oxide semiconductor layer, a monitor light-emitting element, a current source circuit, and an amplification circuit that compensates the cathode potential of the light-emitting element. The potential of the monitor power supply line is lower than the potential of a power supply line in the pixel. | 2012-03-08 |
| 20120056538 | DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - The display device includes stacked layers including a display element layer and a control layer including a capacitor including an upper electrode layer and a lower electrode layer that face each other in a layer-stacking direction, wherein the upper electrode layer includes a first upper capacitor electrode connecting two circuit elements, a disconnectable portion, and a second upper capacitor electrode connected to the first upper electrode layer through the disconnectable portion, and the lower electrode layer includes a first lower capacitor electrode connecting two circuit elements, a disconnectable portion, and a second lower capacitor electrode connected to the first lower electrode layer through the disconnectable portion. The capacitor has a capacitance each between the first upper capacitor electrode and the second lower capacitor electrode, and the first lower capacitor electrode and the second upper capacitor electrode. | 2012-03-08 |
| 20120056539 | Vehicle Discharge Lamp, Vehicle Discharge Lamp Device, Lighting Circuit Combined Type Vehicle Discharge Lamp Device, and Lighting Circuit - Provided is a mercury-free vehicle discharge lamp that is stably lighted with a power of 18 to 30 W in a steady time. The lamp is defined in a light-emitting portion ( | 2012-03-08 |
| 20120056540 | MANEUVERING AID, METHOD, AND HEADLIGHT DEVICE FOR A UTILITY VEHICLE - A maneuvering aid for a vehicle has a lighting device configured to at least partially illuminate at least an underlying surface under the vehicle and/or a vehicle bodywork. A control device configured to control the lighting device in order to activate and/or deactivate same. The control device is configured to control the lighting device at least as a function of a vehicle speed and/or of a vehicle acceleration and/or of a distance of the vehicle from a roadway boundary or an obstacle in the roadway. A corresponding method, a corresponding vehicle, and a headlight assembly are described as well. | 2012-03-08 |
| 20120056541 | ION GENERATING DEVICE FOR DUCT - Provided is an ion generating device for an air-conditioner duct, which can be easily attached to the inside of an existing air conditioner duct and can ensure a desired ion generation quantity. The ion generating elements of the sub-units ( | 2012-03-08 |
| 20120056542 | High Illumination LED Bulb with 360-Degree Full Emission Angle - A high illumination LED bulb with a 360-degree full emission angle includes a transparent lamp seat, a transparent lampshade coupled to lamp seat, a support board disposed in a chamber defined by transparent lamp seat and transparent lampshade, a heat dissipating body supported by support board, and first and second light emitting modules. The first light emitting module includes a first substrate disposed on a face of heat dissipating body and at least one LED disposed on first substrate. The second light emitting module includes a second substrate disposed on another face of heat dissipating body and at least one LED disposed on second substrate. The LEDs on first and second substrates can project upper and lower projection lights respectively, and reflected halo formed by projection of upper projection light on transparent lampshade can form side projected halo, thereby a 360-degree full emission angle projected halo can be formed. | 2012-03-08 |
| 20120056543 | BYPASS CIRCUITRY FOR SERIALLY COUPLED LIGHT EMITTING DIODES AND ASSOCIATED METHODS OF OPERATION - The present technology is generally related to LED bypass circuits and associated methods of operation. In one embodiment, an LED bypass circuit includes a monitoring circuit and a bypass switch. The monitoring circuit is coupled to the LED to monitor the differential voltage across the LED. The bypass switch is coupled to the LED in parallel. When an open status is detected by the monitoring circuit, the bypass switch is turned on to bypass the LED. | 2012-03-08 |
| 20120056544 | APPARATUS FOR DRIVING LIGHT EMITTING DEVICE - An apparatus for driving a light emitting device includes: a current control unit generating a current control signal according to a preset current setting value; a constant current circuit unit varying a current resistance value according to the current control signal of the current control unit, detecting a current flowing in a light emitting unit including a plurality of emitting devices by using the current resistance value, and controlling the current flowing in the light emitting unit based on the detected current; and a voltage control unit varying a voltage resistance value according to a preset voltage setting value, detecting a voltage supplied to the light emitting unit by using the voltage resistance value, and determining whether or not the voltage is in an over-voltage state, based on the detected voltage. | 2012-03-08 |
| 20120056545 | CIRCUIT FOR AND A METHOD OF SENSING A PROPERTY OF LIGHT - In a circuit ( | 2012-03-08 |
| 20120056546 | Anti-paparazzi/identity protection system - A method and apparatus described herein uses sensors to detect illumination indicative of an active auto-focus system in the IR, near IR, and visible light spectrums. This signal is used to trigger a light in the visible spectrum that disrupts a contrast differencing, passive auto-focus system. | 2012-03-08 |
| 20120056547 | LIGHT-EMITTING ELEMENT DRIVING DEVICE AND IMAGE FORMING APPARATUS USING THE SAME - A light-emitting driving device includes a light-emitting element array including a plurality of light-emitting elements, and a driver including a plurality of driving elements. The plurality of light-emitting elements included in the light-emitting element array are driven by the plurality of driving elements included in the driver. A plurality of signal lines are connected to the plurality of driving elements, respectively. A plurality of power supply lines and a plurality of ground lines are connected to the plurality of driving elements, respectively. An entire line width of each of the plurality of signal lines is greater as a distance thereof from a signal source increases. | 2012-03-08 |
| 20120056548 | CIRCUIT AND METHOD FOR DRIVING LED LAMP WITH A DIMMER - A system for driving an LED (light-emitting diode) lamp includes a dimmer circuit coupled to a line input voltage for varying a magnitude of an input voltage and a transformer having a primary winding, a secondary winding, and one or more auxiliary windings, the primary winding coupled to the dimmer circuit. The system also includes an output rectifying circuit coupled to the secondary winding for providing an output current to the LED lamp and a power switch coupled to the primary winding for controlling a current flow in the primary winding. The system further includes a controller having a comparator and a capacitor for providing a control signal to control the power switch for regulating the output current. The controller coupled to the dimmer circuit for receiving an average input voltage signal from the dimmer circuit, wherein the control signal is characterized by a duty cycle that is determined by a ratio of a charging current to a discharging current of the capacitor, and the ratio is related to the average input voltage signal from the dimmer circuit. | 2012-03-08 |
| 20120056549 | DISCHARGE LAMP LIGHTING CIRCUIT - A discharge lamp lighting circuit includes a DC/DC converter which generates from an input voltage a drive voltage to be applied to a discharge lamp of a driven object. A first drive voltage generating path has one end to which the input voltage is applied, and at the other end of which is an output capacitor on an output side of the DC/DC converter. A second drive voltage generating path has one end to which the input voltage is applied, and at the other end of which is the output capacitor. The second drive voltage generating path is different from the first drive voltage generating path. A control circuit controls ON/OFF of the first drive voltage generating path. The discharge lamp lighting circuit is arranged so that the voltage of the output capacitor when the first drive voltage generating path is in an ON-state becomes higher than the voltage of the output capacitor when the first drive voltage generating path is not so. | 2012-03-08 |
| 20120056550 | DISPLAY DEVICE - The invention provides an active matrix EL display device which can perform a clear multi-gray scale color display. In particular, the invention provides a large active matrix EL display device at low cost by a manufacturing method which can selectively form a pattern. Power supply lines in a pixel portion are arranged in matrix by the manufacturing method which can selectively form a pattern. Further, capacitance between wirings is reduced by providing a longer distance between adjacent wirings by the manufacturing method which can selectively form a pattern. | 2012-03-08 |
| 20120056551 | HIGH POWER-FACTOR CONTROL CIRCUIT AND METHOD FOR SWITCHED MODE POWER SUPPLY - A switch mode power supply (SMPS) system includes a rectifying circuit for coupling to an AC input voltage and a transformer having a primary winding for coupling to the rectifying circuit and a secondary winding coupled to the primary winding. The system also has a power switch coupled to the primary winding and a control circuit coupled to the power switch. The control circuit is configured to control current flow in the primary winding such that an envelop waveform formed by peak points of current pulses are in phase with the magnitude of the AC input voltage. Moreover, the SMPS system is configured to provide a constant average output current. | 2012-03-08 |
| 20120056552 | MULTI-MODE DIMMING CIRCUIT - The present disclosure discloses a multi-mode dimming circuit configurable to operate in a first dimming mode, a second dimming mode and a third dimming mode. The present disclosure also discloses separate dimming circuits for respectively realize the three dimming modes. In one embodiment the multi-mode dimming circuit may comprise a first input terminal, a second input terminal, a third input terminal, an output terminal, a resistive device, an oscillation circuit and a pulse width modulation (PWM) circuit. Users may flexibly configure the multi-mode dimming circuit to operate in one of the three different dimming modes by varying the external devices and/or signals coupled to each of the first, second and third input terminals. | 2012-03-08 |
| 20120056553 | CIRCUIT FOR CONNECTING A LOW CURRENT LIGHTING CIRCUIT TO A DIMMER - A circuit for connecting to a dimmer, the circuit configured to receive an input signal from the dimmer. The circuit comprises a first load and a switch. The switch is operable to automatically engage the first load at a predetermined time from a zero-crossing of the input signal and automatically disengage the first load at other times. | 2012-03-08 |
| 20120056554 | Solid State Light Source Driving and Dimming Using an AC Voltage Source - Solid state light source driving and dimming systems are provided that enable a plurality of solid state light source (e.g., LED) driver circuits to be coupled to a single AC voltage source. The driver circuits may include constant current circuitry configured to generate a constant AC current from the AC voltage source, and rectifier circuitry configured to generate a DC current to drive the solid state light source (e.g., LEDs). Dimming control includes shunt circuitry operable with a PWM switch to shunt the AC voltage source during certain portions of a PWM signal and to decouple the shunt circuitry from the AC voltage source during other portions of the PWM signal. Shunting the AC voltage source causes the interruption of the DC current to effectively turn off the LEDs. Decoupling the shunt circuitry may improve overall efficiency of power transfer to the LEDs. | 2012-03-08 |
| 20120056555 | LIGHT EMITTING DIODE ILLUMINATOR AND ILLUMINATION CONTROL INTERFACE OF THE LIGHT EMITTING DIODE ILLUMINATOR - A light emitting diode illuminator includes at least one light emitting diode, a power supply, an illumination control interface and a controller. The power supply is electrically connected to the at least one light emitting diode so as to provide a current to the at least one light emitting diode. The illumination control interface is configured to sense a touch time from a user so as to generate a control signal. The controller is electrically connected to the illumination control interface and the power supply so as to generate a modulation signal according to the control signal. The power supply adjusts strength of the current according to the modulation signal so that the at least one light emitting diode generates a corresponding illumination according to the strength of the current. | 2012-03-08 |
| 20120056556 | LED-BASED LIGHT SOURCE HAVING DECORATIVE AND ILLUMINATION FUNCTIONS - A light source that generally includes multiple light emitting diode (LED) sources emitting light at different colors. A controller energizes the LED sources for establishing a changing pattern of the light colors to provide a decorative effect while simultaneously establishing white light illumination of a target area. | 2012-03-08 |
| 20120056557 | LIGHT EMITTING BULB, LUMINARY AND ILLUMINATION DEVICE USING LED - A light emitting bulb, a luminary and an illumination device are provided. The light emitting bulb includes a main body and a bulb base. The main body has a plurality of the light emitting units. The bulb base has a plurality of flexible pieces. The flexible pieces are connected to the light emitting units respectively to form a plurality of electrical transmission paths. The luminary further has a lamp holder for holding the light emitting bulb. A control unit in the illumination device is connected to the light emitting bulb through the lamp holder for selectively providing a supply of a power to the light emitting units to control brightness of light emitting units, respectively. The light emitting bulb may facilitate color changing and brightness control without having a control circuit disposed within the light emitting bulb and is associated with a longer lifetime and a lower manufacturing cost. | 2012-03-08 |
| 20120056558 | DISPLAY DEVICE AND ELECTRONIC DEVICE USING THE SAME - The invention provides a low-power consumption display device. The display device | 2012-03-08 |
| 20120056559 | INTEGRATED CIRCUIT FOR DRIVING HIGH-VOLTAGE LED LAMP - An integrated circuit for driving high-voltage LED lamps is applied to a rectified alternative current (AC) power and a plurality of LED stacks. The integrated circuit includes a control unit, a plurality of current-clamping units which electrically connect to the control unit and the LED stacks respectively, and a plurality of current-sensing units which electrically connect to the current-clamping units and the control unit. When the rectified power is switched on, the current-sensing unit constantly monitors the electrical current flowing through the respective current-clamping unit and feeds back the monitored data to the control unit. The control unit sequentially switches on or off the current-clamping units according to the combinatorial logic state of the monitored data. | 2012-03-08 |
| 20120056560 | DC POWER SOURCE UNIT AND LED LAMP SYSTEM - A DC power source unit | 2012-03-08 |
| 20120056561 | BACKLIGHT APPARATUS, DISPLAY APPARATUS AND LIGHTING APPARATUS - A backlight apparatus including: a light-emitting element block on which a plurality of light-emitting elements are arranged; a plurality of driving control units each of which is configured to control driving for each of the plurality of light-emitting elements by supplying a current to the light-emitting element block; and a main control unit configured to generate a control signal for performing driving control for each of the plurality of driving control units, and to output the control signal to one of the plurality of driving control units, wherein the plurality of driving control units are connected in a daisy chain scheme, and the main control unit includes, in the control signal, identification information for identifying at least one of the plurality of driving control units and control data for performing driving control on light-emitting elements assigned to a driving control unit identified by the identification information. | 2012-03-08 |
| 20120056562 | Lighting device - A lighting device includes first and second power source lines supplied with a driving current, first and second switching portions that respectively allow or prohibit supply of the driving current to the first and second power source lines, first and second current application lines respectively coupled with the first and second power source lines, first and second light-emitting element groups respectively disposed on the first and second current application lines, a driving portion coupled with the first and second current application lines and allowing flow of the driving current to the first and second current application lines, and a control portion that controls the first and second switching portions and the driving portion. | 2012-03-08 |
| 20120056563 | POWER GENERATING DEVICE - The invention discloses a power generating device comprising a first shell, a magnetic unit, a second shell and an inductance coil. The first shell comprises at least a first engaging part. The magnetic unit is disposed on the first shell. The second shell comprises at least a second engaging part which is detachably engaged to the first engaging part making the first shell and the second shell form a space, wherein the magnetic unit is disposed inside the space. The inductance coil is disposed on the second shell inside the space, and the magnetic unit is surrounded by the inductance coil. When an external force is applied to the first shell and the second shell, the first engaging part moves relatively to second engaging part, and the inductance coil generates an induced current by sensing changes of a magnetic flux. | 2012-03-08 |
| 20120056564 | Electrical Drive With Switchable Coil Sections - The invention relates to an electrical drive having a motor with a rotor and a stationary stator, which has a coil arrangement, and having a motor controller for controlling the motor, with the motor controller being configured to pass current through the coil arrangement in order to produce an excitation field, with the coil arrangement having a plurality of coil winding sections, and with each coil winding section having a plurality of coil sections, wherein the polarity of at least one coil section of the plurality of coil sections of each coil winding section can be selectively reversed with respect to the other coil sections of the coil winding section. The drive is particularly suitable for use for an electrical tool. | 2012-03-08 |
| 20120056565 | Method for Balancing the Movement of Mobile Masses in a Bi-Linear Electrodynamic Motor - Method for balancing the motion of the magnetized movable masses of a bilinear electrodynamic motor comprising two movable masses moving in opposite senses parallel to the axis (x-x) of the motor, characterized in that the said method comprises the steps of:
| 2012-03-08 |
| 20120056566 | ELECTRIC SWITCH - An electric switch, in particular for an electric tool with an electric motor. The switch has first electrical terminals for electrical connection to a voltage supply and second electrical terminals for electrical connection to the electric motor. The switch has an actuating mechanism which can be adjusted between an initial position and a final position, wherein the electric motor is switched off when the actuating mechanism is located in the initial position and is switched on when the actuating mechanism is not located in the initial position. The switch also has a braking circuit for braking the electric motor, the braking circuit operating when the actuating mechanism is reset to the initial position. The switch also has a reversal circuit for switching over the direction of rotation of the electric motor. The braking circuit is arranged between the second electrical terminals and the reversal circuit. | 2012-03-08 |
| 20120056567 | METHOD AND APPARATUS FOR CONTROLLING A HIGH-VOLTAGE BATTERY CONNECTION FOR HYBRID POWERTRAIN SYSTEM - A hybrid powertrain system has a high-voltage electric circuit including a high-voltage battery and a DC link coupled to first and second inverters electrically connected to first and second torque machines. A method for operating the hybrid powertrain system includes receiving a motor torque command for the second torque machine, determining a preferred DC link voltage for achieving the motor torque commanded from the second torque machine, selectively interrupting electric power flow between the high-voltage battery and the DC link to achieve the preferred DC link voltage. | 2012-03-08 |
| 20120056568 | MOTOR DRIVING APPARATUS HAVING DC LINK VOLTAGE REGULATING FUNCTION - A motor driving apparatus comprises: an AC/DC converter which converts AC voltage supplied from an AC power source into DC voltage through PWM switching control of a power switching device; and a DC/AC converter which converts the DC voltage into variable-frequency AC voltage for driving a motor in a controlled manner. The AC/DC converter includes: a control unit which generates, based on an error between the DC voltage and a DC voltage command value, a PWM signal for the PWM switching control of the power switching device; and a frequency/gain varying unit which sets the frequency of the PWM signal to be generated by the control unit and a control gain in the control unit higher than their normal levels during a period in which a load in the DC/AC converter varies. | 2012-03-08 |
| 20120056569 | CONTROL DEVICE AND CONTROL METHOD FOR AC MOTOR - A control device for performing PWM control of an inverter includes a synchronous PWM control circuit for generating a control command for the inverter by performing PWM control based on a comparison between a sinusoidal voltage command signal for operating the AC motor according to an operation command and a carrier signal, and a carrier generating unit for keeping an integer as a synchronization number being a frequency ratio between the voltage command signal and the carrier signal, and producing the carrier signal by switching the synchronization number according to an operation state of the AC motor. The carrier generating unit adjusts a phase relationship between the voltage command signal and the carrier signal according to the synchronization number such that an AC current transmitted between the inverter and the AC motor according to the control command provided from the synchronous PWM control circuit is symmetrical with respect to a boundary between positive and negative portions. | 2012-03-08 |
| 20120056570 | SYSTEM AND METHOD FOR COLLECTING CHARACTERISTIC INFORMATION OF A MOTOR, NEURAL NETWORK AND METHOD FOR ESTIMATING REGIONS OF MOTOR OPERATION FROM INFORMATION CHARACTERIZING THE MOTOR, AND SYSTEM AND METHOD FOR CONTROLLING MOTOR OPERATION USING THE CHARACTERISTIC INFORMATION, THE NEURAL NETWORK, OR BOTH - A method for collecting operational parameters of a motor may include controlling the energization of a phase winding of the motor to establish an operating point, monitoring operational parameters of the motor that characterize a relationship between the energization control applied to the motor's phase winding and the motor's response to this control, and collecting information of the operational parameters for the operating point that characterizes the relationship between the applied energization control and the motor's response. The collected information characterizing the relationship between the applied energization control and the motor's response may be employed by a neural network to estimate the regions of operation of the motor. And a system for controlling the operation of motor may employ this information, the neural network, or both to regulate the energization of a motor's phase winding during a phase cycle. | 2012-03-08 |
| 20120056571 | ELECTRIC DRIVE SYSTEM - The invention relates to a drive system comprising a liquid-cooling electric machine ( | 2012-03-08 |
| 20120056572 | APPARATUS AND METHODS FOR SYNCHRONIZED DISTRIBUTED CONTROLLERS - Intelligent servomotor controller, including integrated servomotor controller having motor with rotor in first housing; rotor position encoder producing measured position of rotor; microprocessor within second housing mating to first housing, electrically connected to rotor position encoder, serial communications port connecting to another integrated servomotor controller communicating desired rotor position command using serial digital data, microprocessor having software receiving desired position commands through communications port, computing error between desired position command and encoder-transmitted measured rotor reducing error signals to zero. Microprocessor is a position based servo system within second housing and rotor within first housing to desired position defined by communication with another integrated servo element. Microprocessor produces actuation signal to direct PID filter connected to microprocessor, PID filter providing drive amplifier servo control of supplying current to the motor. Cooperative communication facilitates synchronized action with integrated servo element. Embodiments also include method of operating IISMC group, including setting combined path target acceleration for IISMC; setting combined target velocity for IISMC; setting individual target position for IISMC; and initiating synchronized motion in the IISMC. | 2012-03-08 |
| 20120056573 | Stepper Motor Controller With Braking Circuit - An apparatus for controlling a stepper motor comprises a driver circuit and a brake circuit each having a motor controller device. The driver circuit, brake circuit and motor are connected in parallel. The driver circuit receives an enabling signal and outputs driver current to the motor accordingly. The brake circuit includes a logic circuit which receives the enabling signal, a brake input signal, and a power supply status signal, and outputs a brake logic signal. The brake circuit motor controller device is coupled to the logic circuit. This motor controller device receives an output of the brake logic circuit and outputs braking current to the motor in accordance therewith. The braking circuit is effective to prevent movement of the motor shaft in accordance with output of the braking current. The motor controller devices are substantially identical. The apparatus is effective to control the motor while avoiding generation of RF noise. | 2012-03-08 |
| 20120056574 | Stepping motor driver - In a drive of a stepping motor, an electromotive force is generated on the coil of a motor with a sinusoidal wave having the same period as an energization period by smoothly rotating a rotor with microstep driving, and an induced power is stably detected by detecting the electromotive force at the zero cross of driving current. The detection around the current zero cross makes it possible to shorten a detection section, form a driving waveform with few distortions, and perform driving with a driving waveform as in an ordinary micro step. Thus a circuit is provided which is aimed at reducing noise, vibrations, and loss of synchronization, and increasing current consumption efficiency in the determination of stop. | 2012-03-08 |
| 20120056575 | ELECTRIC VEHICLE WITH SWITCHED RELUCTANCE MOTOR POWER PLANT - A reluctance machine includes a stator and a rotor. The stator and rotor have a same number of poles. The rotor is configured to rotate about an axis of rotation. Each stator pole is formed of a primary stator pole and an auxiliary stator pole. The auxiliary stator pole is axially aligned with the primary stator pole in the direction of the axis of rotation. Each rotor pole has a length extending in the direction of the axis of rotation sufficient to at least partially cover the primary stator pole and axially aligned auxiliary stator pole. The primary stator poles are actuated with an alternating magnetic field orientation, and the auxiliary stator poles are also actuated with an alternating magnetic field orientation. The field orientations for the primary and auxiliary stator poles are, however, opposite each other such that a primary stator pole its axially aligned auxiliary stator pole have opposite magnetic field orientations. | 2012-03-08 |
| 20120056576 | Power Train for a Transport Vehicle, in Particular a Rail Vehicle, and Method for Controlling Same - A power train for a transport vehicle is provided. The power train includes an electric motor comprising a shaft, a stator and a rotor, a power supply system receiving direct input voltage and delivering a polyphase voltage to the motor. The system has a modulation factor equal to the voltage amplitude of each phase of the motor divided by the direct input voltage, and includes a sensor for the rotational speed of the rotor. The power train includes a control device for varying the modulation factor that is adapted to decrease the modulation factor relative to the modulation factor in the absence of a device for varying the modulation factor, when the speed of rotation of the rotor belongs to a first interval of values below a predetermined transition value, and adapted to increase the modulation factor relative to the modulation factor in the absence of a device for varying the modulation factor, when the speed of rotation of the rotor belongs to a second interval of values greater than the predetermined transition value. A method and transport vehicle are also provided. | 2012-03-08 |
| 20120056577 | Control System for Single-Phase Induction Motor and Control Method for Single-Phase Induction Motor - The present invention refers to a control system for a single-phase induction motor comprising at least one electronic control circuit ( | 2012-03-08 |
| 20120056578 | CHARGING APPARATUS - A charging device can prevent overcharging by coping with a plurality of cell voltages without increasing a circuit area and current consumption. The charging device selects one of at least two judgment voltages in response to a select signal determined depending on a chargeable voltage of a secondary battery. The charging device compares a comparison voltage based on a voltage of a lower stream of a back flow prevention unit with the selected judgment voltage to detect a fully charged state of the secondary battery. The charging device interrupts supply of charging current to the back flow prevention unit upon detecting the fully charged state. | 2012-03-08 |
| 20120056579 | ROOF TYPE CHARGING APPARATUS USING RESONANT POWER TRANSMISSION - Provided is a roof-type charging apparatus that charges multi-target device, while transmitting a resonance power. A roof-type charging apparatus using resonance power transmission includes a source resonance unit configured to transmit resonance power including a source resonator having a generally planar loop configuration and defining a space therein; a receiving unit configured to receive the resonance power transmitted from the source resonator; and a connecting unit configured to separate the source resonator and the receiving unit by a predetermined distance. | 2012-03-08 |
| 20120056580 | CONTACTLESS ELECTRICITY-SUPPLYING DEVICE - A contactless electricity-supplying device ( | 2012-03-08 |
| 20120056581 | CHARGING APPARATUS FOR VEHICLE AND CONTROLLING METHOD THEREOF - An apparatus for charging a portable device battery with a vehicle battery is provided. The apparatus includes a storage, a voltage monitor for monitoring voltage of the vehicle battery, a portable device connector, and a charging controller. The storage stores a charging table in which charging quantity ratios of the portable device battery to voltage bandwidths of the vehicle battery are written. The charging controller controls the connector so that the portable battery is charged to a desired value of voltage that corresponds to the monitored voltage in the charging table. With this apparatus, it is possible to charge conveniently, among others. | 2012-03-08 |
| 20120056582 | SHARING CHARGING SYSTEM - When it is determined that a charge controllable vehicle and a charge uncontrollable vehicle coexist are connected to a plurality of charging stations, available power X is distributed and supplied to the charge controllable vehicle or the charge uncontrollable vehicle so that total power derived from the charge controllable vehicle and the charge uncontrollable vehicle does not exceed the available power X of a power supply unit, and the available power X is distributed as time division and supplied to the charge controllable vehicle and the charge uncontrollable vehicle. | 2012-03-08 |
| 20120056583 | METHOD AND DEVICE FOR THE EFFICIENT CHARGING OF A VEHICLE BATTERY - A method and a device are provided for the efficient charging of a vehicle battery of an electric vehicle by a charging station of a group charging station. The connected vehicle battery, starting from an initial charge state, is charged in accordance with a calculated charge priority value until the charge state of the vehicle battery reaches a selectable charge state. The calculated charge priority values of the vehicle batteries connected at the same time to the charging stations of the group charging station determine which batteries will be charged within a charging interval. | 2012-03-08 |
| 20120056584 | SYSTEMS, APPARATUS AND METHODS FOR BATTERY CHARGE MANAGEMENT - Systems, apparatus, and methods for automobile battery management is provided. In one embodiment, an apparatus for providing balanced and individualized charging to a battery pack is provided. The apparatus uses microcontrollers to determine a charge level of the batteries, and correspondingly controls a power balancer to apply a charge current to the battery in relation to the charge level, and dissipates the remaining charge current as heat energy. In one embodiment, a system controller controls a balanced charging operation of the battery system, provides an interface for a user to monitor cell-level parameters, and protects the battery cells from undercharging or overcharging during the charging or discharging operations. | 2012-03-08 |
| 20120056585 | SYSTEMS, APPARATUS, AND METHODS FOR BATTERY CHARGE MANAGEMENT - Systems, apparatus, and methods for automobile battery management is provided. In one embodiment, an apparatus for providing balanced and individualized charging to a battery pack is provided. The apparatus uses microcontrollers to determine a charge level of the batteries, and correspondingly controls a power balancer to apply a charge current to the battery in relation to the charge level, and dissipates the remaining charge current as heat energy. In one embodiment, a system controller controls a balanced charging operation of the battery system, provides an interface for a user to monitor cell-level parameters, and protects the battery cells from undercharging or overcharging during the charging or discharging operations. | 2012-03-08 |
| 20120056586 | SECONDARY BATTERY PACK - A secondary battery pack is described that is rechargeable and has a large capacity. The secondary pack has multiple battery units and at least one controller. Each battery unit of the battery pack includes a cell unit and a cell balancing system. In one embodiment, the cell balancing system has at least three detachable connections for connecting the cell balancing system to the cell unit, the controller or to other cell balancing units. The connections allow the cell balancing systems to be detached from the battery units and reused. | 2012-03-08 |
| 20120056587 | POWER SUPPLY DEVICE AND BATTERY PACK - A temperature detection portion | 2012-03-08 |
| 20120056588 | Use of Battery Energy for Power Grid Optimization and Electric Vehicle Charging - The use of battery cells to store energy for EV charging and grid optimization and regulation service. The major components of the system and the benefits of such concept are also described. | 2012-03-08 |
| 20120056589 | CHARGE/DISCHARGE CONTROL CIRCUIT AND BATTERY DEVICE - Provided is a battery device including, in a charge/discharge protection circuit for controlling charge/discharge of a secondary battery by a single bidirectionally conductive field effect transistor, a charge/discharge control circuit with which the number of elements to be used is reduced to reduce the layout area. The charge/discharge control circuit includes a switch circuit for controlling a gate of the bidirectionally conductive field effect transistor based on an output of a control circuit for controlling the charge/discharge of the secondary battery, the switch circuit including a first terminal connected to a back gate of the bidirectionally conductive field effect transistor. | 2012-03-08 |
| 20120056590 | Very Long Cycling of Lithium Ion Batteries with Lithium Rich Cathode Materials - Lithium ion batteries can be activated and then cycled to exploit a moderate fraction of the discharge cycling capacity such that the discharge capacity and average discharge voltage stay within initial values for thousands of cycles. The superior cycling performance has been achieved at relatively high discharge rates and for practical battery formats. Lithium ion battery performance can also be achieved with superior cycling performance with partially activated batteries such that good discharge capacities can be exploited for many thousands of cycles before the discharge capacity and average discharge voltage drops more than 20% from initial values. The positive electrode active material can be a lithium rich metal oxide. The activation of the battery can comprise phase changes of the active materials. As described herein, the phase changes can be manipulated to exploit a reasonable fraction of the available high capacity of the material while providing outstanding cycling stability. | 2012-03-08 |
| 20120056591 | BATTERY CONTROL DEVICE AND BATTERY CONTROL METHOD - A power storage device has a NaS battery for storing electric power, a Hall current detector for measuring charge/discharge current value I of the NaS battery, a bidirectional converter for converting electric power between a direct current and an alternating current bidirectionally, and a controller for controlling the power storage device. The controller integrates the charge/discharge current value I of the NaS battery and calculates the calculated value of the discharge capacity in the NaS battery. The controller calculates estimated error Er(t | 2012-03-08 |
| 20120056592 | CHARGE/DISCHARGE CONTROL CIRCUIT AND BATTERY DEVICE - Provided is a battery device for controlling charge/discharge of a secondary battery by a single bidirectionally conductive field effect transistor, a charge/discharge control circuit with which a leakage current of the bidirectionally conductive field effect transistor is reduced to perform stable operation. The charge/discharge control circuit includes: a switch circuit for controlling a gate of the bidirectionally conductive field effect transistor based on an output of a control circuit for controlling the charge/discharge of the secondary battery; and two MOS transistors for preventing back-flow of a charge current and a discharge current. The first MOS transistor has a drain and a back gate which are connected to each other, and a source connected to a drain of the bidirectionally conductive field effect transistor. The second MOS transistor has a drain and a back gate which are connected to each other, and a source connected to a source of the bidirectionally conductive field effect transistor. | 2012-03-08 |
| 20120056593 | CHARGE/DISCHARGE CONTROL CIRCUIT AND BATTERY DEVICE - Provided is a battery device including, in a charge/discharge protection circuit for controlling charge/discharge of a secondary battery by a single bidirectionally conductive field effect transistor, a charge/discharge control circuit with which the layout area is reduced and a leakage current of the bidirectionally conductive field effect transistor is reduced to perform stable operation. The charge/discharge control circuit includes: a switch circuit for controlling a gate of the bidirectionally conductive field effect transistor based on an output of a control circuit for controlling the charge/discharge of the secondary battery; and two Schottky barrier diodes for preventing back-flow of a charge current and a discharge current. The first Schottky barrier diode has a cathode connected to a drain of the bidirectionally conductive field effect transistor, and the second Schottky barrier diode has a cathode connected to a source of the bidirectionally conductive field effect transistor. | 2012-03-08 |
| 20120056594 | CONTROL DEVICE AND METHOD AND POWER SUPPLY DEVICE - A control device includes a controller causing a plurality of cell blocks each configured of one or plurality of secondary battery cells and connected in series to be charged with a cell balance, and the controller includes a detector detecting a voltage of each of the cell blocks, an updater sequentially updating a maximum voltage of the detected voltage of each of the cell blocks, and a discharger discharging a cell block among the plurality of cell blocks, the cell block with a voltage range between the detected voltage and the updated maximum voltage within a discharge target voltage range defined in advance. | 2012-03-08 |
| 20120056595 | ELECTRIC CIRCUIT, CHARGE CONTROL DEVICE, CHARGE SYSTEM, AND CONTROL METHOD - There is provided an electric circuit including a semiconductor switch that is inserted in a positive side power line; and converting means for converting an input voltage input to an input side terminal to a predetermined output voltage and for outputting the output voltage from an output side terminal, wherein the output side negative terminal of the converting means is connected to the positive side power line, and the output side positive terminal of the converting means is connected to a terminal that controls an opening and closing of the semiconductor switch. | 2012-03-08 |
| 20120056596 | REMAINING BATTERY POWER CALCULATION CIRCUIT - A remaining battery power calculation circuit includes: a detection unit configured to detect an output voltage of a battery; a data storage unit configured to store data in an associated manner with each of a plurality of current values for charge or discharge of the battery, the data indicating a relationship between the output voltage and a ratio of remaining power of the battery to a capacity of the battery in a case where the battery is charged or discharged with each of the plurality of current values; and a first calculation unit configured to calculate a charging/discharging current of the battery based on the data and the output voltage. | 2012-03-08 |
| 20120056597 | SECONDARY BATTERY PACK SYSTEM - To provide a secondary battery pack system that controls battery packs which are connected in parallel without requiring a complex system configuration, a secondary battery pack system of the present invention that supplies power to an electronic device includes a plurality of battery packs each having a controller, a main body side connection circuit which is provided on the electronic device side so as to be connected to the plurality of battery packs, and a main body side discharge control signal line which is provided in the main body side connection circuit. The main body side discharge control signal line and controllers of the plurality of battery packs are connected to each other. | 2012-03-08 |
| 20120056598 | BATTERY PACK AND METHOD OF CONTROLLING THE SAME - A battery pack including a plurality of battery cells and a method of controlling the battery pack are provided. The method includes: permanently cutting off charging and discharging paths of the battery pack; and discharging one or more of the battery cells when a condition of which satisfies a reference condition. Therefore, state of the battery pack changes from its failure state to a stable state. | 2012-03-08 |
| 20120056599 | APPARATUS FOR CONTROLLING CAPACITOR CHARGE STATUS AND METHOD OF ASSEMBLY - A capacitor charge control assembly for use with a circuit protection device that includes at least one activation capacitor, including at least one input device configured to receive first and second user inputs, and a linkage assembly coupled to the at least one input device such that the at least one input device is movable between a first position and an opposite second position. The control assembly also includes at least one switch coupled to the at least one input device and configured to generate one of a first signal and a second signal, wherein the first signal is based on the first user input and the second signal is based on the second user input, and wherein the first signal causes the at least one activation capacitor to discharge stored energy and the second signal causes the at least one activation capacitor to store energy. | 2012-03-08 |
| 20120056600 | CAPACITOR VEHICLE HAVING HIGH SPEED CHARGING ABILITY AND METHOD OF OPERATING A CAPACITOR VEHICLE - A vehicle is provided that includes a capacitor situated on the vehicle adapted to be charged by a source separate from the vehicle. The capacitor is adapted to be charged at a rate faster than a maximum charge rate of a battery of the vehicle. The vehicle also includes a charging circuit coupled to the capacitor and adapted to receive electrical charge from the capacitor and regulate the flow of electrical charge below the maximum charge rate of the battery. The vehicle also includes the battery coupled to the charging circuit and adapted to be charged by electrical charge flowing from the capacitor through the charging circuit, and an electric motor adapted to be energized by the battery to propel the vehicle. A method for operating a vehicle is provided that includes charging a capacitor arranged in the vehicle from a source separate from the vehicle. | 2012-03-08 |
| 20120056601 | ROTOR BASED AIR GAP HEATING FOR AIR DRIVEN TURBINE - A generator apparatus comprises a deicing circuit. The deicing circuit is operable during a time when a main generator rotor is not being rotated by a generator shaft. The deicing circuit includes a first power source for energizing a plurality of exciter field windings with alternating input current to induce an exciter output current in a plurality of exciter armature windings. The exciter output current is provided to main generator rotor windings for producing resistance heating around an air gap separating the main generator rotor from a main generator stator. | 2012-03-08 |
| 20120056602 | CONTROL OF A PERMANENT MAGNET SYNCHRONOUS GENERATOR WIND TURBINE - Aspects of the disclosure relate to a control approach that utilizes a direct-current-based d-q vector control technology for variable-speed PMSG wind turbines based on full voltage source PWM converters. The control approach can be based on a nonlinear programming configuration for attaining a desired performance of PMSG wind turbine under operation constraints. The control approach can comprise a PMSG control unit that exploits fuzzy, adaptive, and PID control technologies in an optimal or nearly optimal control configuration. The control approach provides a smart wind turbine control technology that can be based on virtual lookup tables for effective PMSG power extraction. | 2012-03-08 |
| 20120056603 | Main circuit of electric power generating apparatus for dispersed power supply - Main circuit of an electric power generating apparatus for dispersed power supply, having a permanent magnet type electric power generator driven by windmill or waterwheel and having three windings, each inducing a different value of induced voltage, AC outputs of the generator rectified by rectifiers, and DC outputs of the rectifiers summed in parallel for output. First and second reactors are respectively connected in series between first and second rectifiers and output terminals of first and second windings, the first winding inducing the lowest induced voltage among the three windings, the second winding inducing the second lowest. A capacitor is connected between a third rectifier and an output terminal of a third winding inducing the highest induced voltage. The sum of inductive impedance by internal inductance of the third winding and capacitive impedance by the capacitor is capacitive impedance within a range of rotational speed of the generator. | 2012-03-08 |
| 20120056604 | Power supply circuit - A power supply circuit to detect whether or not abnormal current is generated in a power factor compensation circuit and forcibly stop an operation of an interleaved power factor compensation circuit controller if abnormal current is generated. The power supply circuit includes a rectifier, a power factor compensation circuit including a plurality of reactors, a plurality of switches and a plurality of current detectors, a power factor compensation circuit controller to control switching of the switches and to control a power factor compensation operation, and a power factor compensation circuit protection circuit to receive the voltages output from the plurality of current detectors and to stop the operation of the power factor compensation circuit controller if at least one of the voltages output from the plurality of current detectors is abnormal. Thus, it is possible to prevent failure of the switches and the current detectors due to abnormal current. | 2012-03-08 |
| 20120056605 | Integrated circuit device for switching regulator and designing method therefor - An integrated circuit device for a switching regulator, includes: a controller configured to generate a digital duty signal for a current mode control of the switching regulator based on an output voltage to be supplied from the switching regulator to a load circuit; and a switching pulse generating section configured to set a time ratio of a switching pulse signal for controlling turning-on and turning-off of a switching circuit which is provided in the switching regulator, based on the digital duty signal. The controller is a digital circuit which operates based on a master clock of the same frequency as a switching frequency of the switching circuit. | 2012-03-08 |
| 20120056606 | DC-DC CONVERTER AND SEMICONDUCTOR CHIP - A DC-DC converter includes: a first inductor connected between the second end of the first MOS transistor and the output terminal; a second inductor connected between the second end of the third MOS transistor and the output terminal; a first capacitor connected between a gate of the second MOS transistor and the second end of the third MOS transistor; a second capacitor connected between a gate of the fourth MOS transistor and the second end of the first MOS transistor; and a third capacitor connected at a first end thereof to the second end of the first MOS transistor and connected at a second end to the second end of the third MOS transistor. The DC-DC converter includes: a first resistor connected at a first end to the gate of the second MOS transistor; a second resistor connected at a first end thereof to the gate of the fourth MOS transistor; and a first bias adjustment circuit which compares the output voltage with a preset first reference voltage and which applies a first bias voltage to a second end of the first resistor and a second end of the second resistor to make the output voltage equal to the first reference voltage. | 2012-03-08 |
| 20120056607 | Power Regulator, Power Control System and Method Thereof - A power regulator, power control system and the method thereof are provided. A detecting device receives a feedback signal from a resistive load device, and outputs a control signal, which could be a voltage or a current. While receiving the control signal, the power regulator outputs a drive voltage in a proportional way. In the proportional way, full power drive voltage is outputted in a continuous output time period and is stopped outputting in a continuous non-output time period. The resistive load device receives the drive voltage and then outputs the feedback signal to the detecting device. Similarly, in the proportional way, the full power drive voltage is outputted in the continuous output time period and is stopped outputting in the continuous non-output time period. Thus, it is able to decrease the amount of harmonic waves. | 2012-03-08 |
| 20120056608 | STABILIZING NETWORK FOR ELECTRONIC TRANSFORMER DRIVEN LED DEVICES - A stabilization circuit is provided at an output of an electronic transformer driving circuit having a rectifier fed into a feedback-controlled oscillator circuit that drives an isolation transformer at an output of the electronic transformer driving circuit. The stabilization circuit includes: a current limiting portion that limits an amount of current delivered by the electronic transformer driving circuit. | 2012-03-08 |
| 20120056609 | REFERENCE CURRENT GENERATION CIRCUIT - One embodiment provides a reference current generation circuit. The circuit has first and second reference current generation circuits for generating first and second reference currents respectively, and a current output circuit for outputting a third reference current by adding the first and second reference currents. The first reference current generation circuit includes first and second current-voltage conversion circuits and a first current supply circuit. The first current supply circuit provides substantially equal amounts of current to the first and second current-voltage conversion circuits respectively. The second reference current generation circuit includes third to fifth current-voltage conversion circuits and a second current supply circuit. The second current supply circuit provides a current to the fourth current-voltage conversion circuit, divide and provide amounts of current substantially equal to that of the current provided to the fourth current-voltage conversion circuit, to the third and fifth current-voltage conversion circuits respectively. | 2012-03-08 |
| 20120056610 | SWITCHING REGULATOR - A switching regulator: first switching element and second switching element; a logic unit which outputs to the load the output voltage converted from the input voltage to the constant voltage, by causing the first switching element and the second switching element to perform a switching operation; an error amplifier which outputs first signal indicating an error between the output voltage and the first reference voltage; first comparator which inputs the first signal and second signal indicating an output voltage that is proportional to load current flowing in the load, and outputs to the logic unit control signal causing the logic unit to perform the switching operation based on the first signal and the second signal; and a correction unit which is connected to an input side of the error amplifier, and corrects an input voltage of the error amplifier to reduce the input voltage to a certain value or lower. | 2012-03-08 |
| 20120056611 | CONNECTION DETECTION CIRCUIT - A connection detection circuit includes a first detection circuit and a second detection circuit. The first detection circuit includes a first comparator and a first detection pin connected to the first comparator. The first comparator is adapted to compare a first voltage level on the first detection pin with a first reference voltage. The second detection circuit includes a second detection pin. The second detection pin is adapted to connect to the first detection pin to vary the first voltage level on the first detection pin to switch an first transistor output when the connection of the first detection circuit and the second detection circuit is achieved. | 2012-03-08 |
| 20120056612 | Systems and Methods for Phase Compensated Harmonic Sensing in Fly Height Control - Various embodiments of the present invention provide systems and methods for phase compensated harmonic sensing. For example, a circuit for harmonics calculation is disclosed that includes a phase difference estimation circuit and a phase offset compensation circuit. The harmonic calculation circuit is operable to calculate a first harmonic based on a periodic data pattern and a second harmonic based on the periodic data pattern. The phase difference estimation circuit operable to calculate a phase difference between the first harmonic and the second harmonic. The phase offset compensation circuit operable to align the second harmonic with the first harmonic to yield an aligned harmonic. | 2012-03-08 |
| 20120056613 | METHOD AND DEVICE FOR THE DETECTION OF CURRENT ASYMMETRIES IN THREE-PHASE CIRCUITS | 2012-03-08 |
| 20120056614 | Multi-State Indicator - A multi-state indicator comprises a voltage generator, for generating M voltages, with M being an integer larger than 3; and a multi-state detector, coupled to the voltage generator, for receiving M voltages, having a voltage input end for receiving an input voltage to generate an indication signal whereby the indication signal is capable of indicating the input voltage with reference to the M voltages. Unlike the prior art, a multi-state detector having level shifters according to the present invention alleviates problems of static currents and over-large areas for circuits implementing typical differential comparators. | 2012-03-08 |
| 20120056615 | Method and Apparatus for Defined Magnetizing of Permanently Magnetizable Elements and Magnetoresistive Sensor Structures - An apparatus includes a sensor arrangement with a sensor chip. A magnetic field generator is configured to generate a secondary magnetic field opposing an external primary magnetic field at the sensor chip. The magnetic field generator protects the sensor arrangement against the external primary magnetic field. | 2012-03-08 |
| 20120056616 | Distance sensor - A sensor device for height measurement, air spring comprising a sensor device for height measuring and a corresponding method allowing determining the height also under rough conditions like noisy, dusty or vibrating environments. | 2012-03-08 |
| 20120056617 | ROTATION ANGLE DETECTING DEVICE - A rotation angle detecting device includes a rotating body rotating according to rotation of a vehicle pedal; a magnet attached to the rotating body; a magnetism detection element disposed facing the magnet at a predetermined interval from the magnet; and a first control circuit connected to the magnetism detection element. The center of the magnet is placed at the rotation center of the rotating body. The magnetism detection element detects magnetism of the magnet to output a detection signal. The first control circuit outputs an angle signal corresponding to a rotation angle of the rotating body according to the detection signal, and outputs a switching signal according to the rotation angle of the rotating body. The rotation angle detecting device reliably detects a rotation angle and turns a stop lamp on and off for example with a simple structure. | 2012-03-08 |
| 20120056618 | WRITE HEAD TESTER USING INDUCTANCE - A write head is tested by measuring the effect that magnetic fields have on the inductance of the write head. For example, a perpendicular write head may be placed in a magnetic field with a first angle, e.g., non-parallel and non-perpendicular, to the air bearing surface and the inductance is measured. After altering the angle of the magnetic field the inductance is again tested. In another embodiment, the angles may be parallel and perpendicular to the air bearing surface. The difference in the inductance value can be used to determine a characteristic of the write head, such as the presence of a recording pole. In some embodiments, the inductance may be measured while applying a bias current to the write head while the write head is in an external magnetic field. | 2012-03-08 |
| 20120056619 | WRITE HEAD TESTER USING INDUCTANCE - A write head is tested by measuring the effect that magnetic fields have on the inductance of the write head. For example, a perpendicular write head may be placed in a magnetic field with a first angle, e.g., non-parallel and non-perpendicular, to the air bearing surface and the inductance is measured. After altering the angle of the magnetic field the inductance is again tested. In another embodiment, the angles may be parallel and perpendicular to the air bearing surface. The difference in the inductance value can be used to determine a characteristic of the write head, such as the presence of a recording pole. In some embodiments, the inductance may be measured while applying a bias current to the write head while the write head is in an external magnetic field. | 2012-03-08 |
| 20120056620 | MULTIPLICATIVE INCREASE IN MRI DATA ACQUISITION WITH MULTI-BAND RF EXCITATION PULSES IN A SIMULTANEOUS IMAGE REFOCUSING PULSE SEQUENCE - Disclosed are methods and systems for carrying out super-multiplexed magnetic resonance imaging that entwines techniques previously used individually and independently of each other in Simultaneous Echo (of Imaging) Refocusing (SER or SIR) and Multi-Band (MB) excitation, in a single pulse sequence that provides a multiplication rather than summation of desirable effects while suppressing undesirable effects of each of the techniques that previously were used independently. | 2012-03-08 |
| 20120056621 | Method For Imaging A Portion Of An Examination Object In A Magnetic Resonance Scanner - A method is disclosed for imaging a portion of an examination object in a magnetic resonance scanner. The portion is arranged at the edge of a field of view of the magnetic resonance scanner. During at least one embodiment of the method, a gradient field is produced such that a nonlinearity in the gradient field and a B | 2012-03-08 |
| 20120056622 | METHOD TO CONTROL A MAGNETIC RESONANCE DEVICE FOR IMAGE ACQUISITION, AND CORRESPONDING MAGNETIC RESONANCE DEVICE - In a method to control a magnetic resonance device for image acquisition in at least one slice, the magnetic resonance device has a radio-frequency antenna with multiple transmission channels. At least one slice deviates from a cuboid shape and/or that is roughly adapted to a target volume of interest that is to be acquired, and/or at least one saturation volume adapted to a shape in a subject to be acquired, are defined automatically and/or manually via a user interface. The selection of possible slices and/or saturation volumes is limited automatically under consideration of the technical embodiment of the radio-frequency antenna. The image acquisition takes place in the selected slice and/or under consideration of the saturation volume. | 2012-03-08 |
| 20120056623 | Electromagnetic Surface-to-Borehole Look Around Systems and Methods of Monitoring in Horizontal Wells - A method for water monitoring about a deviated well is disclosed. The method includes positioning a series of electromagnetic (EM) receivers in a completed deviated wellbore, said receivers being spaced along substantially the length of the well located in a region of a reservoir to be monitored. The method also includes positioning an electromagnetic (EM) source at a first Earth surface location. Then the EM source is activated for a first survey measurement of the reservoir, and an EM field detected at each EM receiver is recorded. The EM source is moved to a second Earth surface location, and activated for a second survey measurement of the reservoir, and an EM field detected at each EM receiver is recorded. From the first and second survey measurements at each of the receivers, an inversion is performed to determine position of water about (and specifically below) the horizontal well. | 2012-03-08 |
| 20120056624 | VOLTAGE MONITORING USING BITSTREAM SIGNAL PROCESSING - Systems and methods are provided for monitoring a voltage. A level shifter is configured to generate a current proportional to the voltage of the battery cell. A delta-sigma modulator is configured to convert the current into a first density modulated bitstream representing the voltage of the battery cell. A first reference source is configured to provide a second density modulated bitstream representing a first threshold voltage. A first comparator is configured to compare the first density modulated bitstream and the second density modulated bitstream. | 2012-03-08 |
| 20120056625 | Method and System to Measure Series-Connected Cell Voltages Using a Flying Capacitor - A method and system for measuring voltage of individual cells connected in series includes a pair of busses connectable to the cells and a flying capacitor connectable to the busses. The capacitor stores the charge of one of the cells such that an analog-to-digital converter (ADC) connected to the capacitor may process an accurate representation of the voltage of the cell being measured. In order to prevent electrical interference with the capacitor and the ADC, the charge on the busses is reduced prior to measurement by the ADC | 2012-03-08 |
| 20120056626 | LASER ASSISTED DEVICE ALTERATION USING TWO-PHOTON ABSORPTION - A Two-Photon Laser Assisted Device Alteration technique is presented. Fault localization is investigated by exploiting the non-linear two-photon absorption mechanism to induce LADA effects. Femtosecond laser pulses of wavelength having photon energy lower than the silicon bandgap are directed at the area of interest, while the DUT is stimulated with test vectors. The laser pulses are synchronized to the DUT stimulation, so that switching timing can be altered using the two-photon absorption effect. | 2012-03-08 |
| 20120056627 | METHODS, SYSTEMS, AND COMPUTER PROGRAM PRODUCTS FOR DETERMINING A PROPERTY OF CONSTRUCTION MATERIAL - Methods, systems, and computer program products for determining a property of construction material. According to one aspect, a material property gauge operable to determine a property of construction material is disclosed. The gauge may include an electromagnetic sensor operable to measure a response of construction material to an electromagnetic field. Further, the electromagnetic sensor may be operable to produce a signal representing the measured response by the construction material to the electromagnetic field. An acoustic detector may be operable to detect a response of the construction material to the acoustical energy. Further, the acoustic detector may be operable to produce a signal representing the detected response by the construction material to the acoustical energy. A material property calculation function may be configured to calculate a property value associated with the construction material based upon the signals produced by the electromagnetic sensor and the acoustic detector. | 2012-03-08 |
| 20120056628 | Propagation Time Measuring Method for Determining a Distance - An apparatus for ascertaining and monitoring a fill level and includes a transmitting/receiving unit and a delay circuit. The delay circuit includes at least a sampling clocking oscillator, which produces a sampling signal having a sampling frequency, a transmission clocking oscillator, which produces a pulse repetition signal having a pulse repetition frequency and a frequency converter, which produces by means of sequential sampling a difference signal. The apparatus further includes a control/evaluation unit, which determines on the basis of travel time the fill level. Provided on the control/evaluation unit is an external clocking input, which is connected via a clocking line with a first clocking output of the sampling clocking oscillator or with a second clocking output of the transmission clocking oscillator. A stabilized and cost-favorable control circuit for producing an intermediate frequency signal with a highly accurately determinable, transformation factor results. | 2012-03-08 |
| 20120056629 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A semiconductor integrated circuit device comprises: a circuit block formed on a semiconductor substrate; an electrically conductive pattern formed over a portion to be protected of the block; a resetting unit configured to reset a potential of a portion of the pattern to a reference potential; a connecting unit configured to connect the portion to a current supply line; and a detection circuit configured to determine whether a preset range includes a voltage of the portion when a predetermined time has elapsed since the portion is connected to the current supply line after the potential of the portion is reset to the reference potential is provided. A change in voltage of the portion depends on a circuit constant of the pattern. | 2012-03-08 |
| 20120056630 | CAPACITIVE PHYSICAL QUANTITY DETECTOR - A capacitive physical quantity detector includes: a capacitor having an electrostatic capacitance changeable with physical quantity; a converter converting a capacitance change to a voltage; and a selector having a comparator and a switching element. The converter includes a C-V converting circuit having an operational amplifier for amplifying a first signal from the capacitor, a main switch between input and output terminals of the operational amplifier, feedback capacitors and feedback switches. Each feedback switch connects a feedback capacitor to the main switch when the feedback switch is closed. The selector closes the feedback switches based on a second signal of the converter. The comparator compares the second signal with a threshold voltage. The switching element switches the feedback switches according to a third signal from the comparator to set the second signal smaller than a saturated voltage and larger than the threshold voltage. | 2012-03-08 |
| 20120056631 | CAPACITIVE SENSING APPARATUS - The invention relates to a capacitive sensing apparatus for sensing an object, wherein the capacitive sensing apparatus comprises a capacitive sensor ( | 2012-03-08 |
| 20120056632 | CONDUCTANCE DETECTION SYSTEM AND METHOD - A detection system and method for detecting one or a plurality of species from a mixture of species in a phase. The detection system and method detect changes in conductance induced by the species. The conductance includes a cell structure having a rigid architecture having a top surface a portion of which is electrically conductive forming a first conductive component. A second conductive component substantially overlaps the first conductive component and is spaced from the first conductive component by an insulating component. One or more flow pathways exist between the first conductive component and the second conductive component for the chemical and/or biological species to flow. The first conductive component, the second conductive component and the insulating component have an architecture selected to give a cross sectional area over which a displacement current and/or external current flows that is on an order of about 1 cm | 2012-03-08 |
| 20120056633 | MOISTURE SENSOR - A novel and useful sensor and sensing system employs a transmission electrode which provides a length of transmission electrode that is greater than the physical length of the sensor, allowing for the effective and accurate determination of the moisture content of a volume of material using high-frequency measurement methods. The construction of the sensor allows the sensor to be directly inserted into the material, without requiring excavation or backfilling of the sensors in the material. The sensor can be employed as part of a sensing system, with one or more sensors preferably being managed by a field node, which in turn, interoperates with a system master node. | 2012-03-08 |
| 20120056634 | METHODS AND DEVICES FOR SENSING CORROSION UNDER INSULATION (CUI) - A method of sensing corrosion of a pipe covered by a layer of insulation comprises positioning a CUI sensor radially adjacent an outer surface of the pipe. The CUI sensor comprises a non-conductive base having a first end and a second end opposite the first end. In addition, the CUI sensor comprises a first test circuit mounted to the base. The first test circuit includes a first conductor, a second conductor, and a first testing element extending between the first conductor and the second conductor. Further, the method comprises exposing the first testing element to the same environment as the outer surface of the pipe. Still further, the method comprises determining whether the first testing element has corroded through. Moreover, the method comprises assessing whether corrosion of the pipe has occurred based on the determination of whether the first testing element has corroded through. | 2012-03-08 |
| 20120056635 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A semiconductor integrated circuit device including a semiconductor substrate having a first surface on which a circuit block is formed, and a second surface opposite to the first surface; a mounting board on which the semiconductor substrate is mounted; an electrically conductive pattern formed over a region of the mounting substrate, which overlaps a portion to be protected of the circuit block; and a detection circuit configured to detect that the electrically conductive pattern has been altered is provided. The semiconductor substrate is mounted on the mounting board such that the second surface of the semiconductor substrate faces the mounting board. | 2012-03-08 |
| 20120056636 | TEST HANDLER AND METHOD FOR OPERATING THE SAME FOR TESTING SEMICONDUCTOR DEVICES - A test handler is provided, which comprises a test tray, at least one opening unit, and a position changing apparatus. The test tray aligns a plurality of inserts on its side. Each insert loads at least one semiconductor device thereon. The opening unit opens inserts at one part of the one side of the test tray. The position changing apparatus moves at least one opening unit in such a way that the at least one opening units can be located at another part of the one side of the test tray, such that the at least one opening units can open inserts at said another part of the one side of the test tray. The present invention can reduce the number of replaced parts according to change in the semiconductor device size, production cost, and part replacement time. | 2012-03-08 |
