52nd week of 2013 patent applcation highlights part 21 |
Patent application number | Title | Published |
20130342141 | DETERMINING COMMUTATION POSITION FOR A SENSORLESS PERMANENT MAGNET BRUSHLESS MOTOR AT LOW OR ZERO SPEED USING AN ASYMMETRIC DRIVE PATTERN - A system is disclosed for controlling motor switching in a sensorless BLDC motor having a set of three stator windings. A controller unit includes a control signal generator, a memory device, a processing unit, a signal acquisition device, and an analog-to-digital converter. A power stage having a plurality of switches receives a control signal from the control signal generator and a power signal from a power source. The power stage drives two windings of the set of three stator windings with an asymmetric pulse width modulation signal and leaves one stator of the three stator windings undriven. The processing unit acquires a demodulated measured voltage on the undriven winding. The processing unit also communicates with the power stage to change which two windings of the three stator windings are driven when the demodulated measured voltage surpasses a threshold. | 2013-12-26 |
20130342142 | System And Method for Permanent Magnet Motor Control - A method of operating an electric motor is disclosed. The method includes: starting the electric motor in an open loop control mode; operating an estimator that estimates operating conditions of the electric motor; and, while the electric motor is in the open loop control mode, evaluating a first parameter of the estimator. The method further includes: in response to the evaluation of the first parameter, determining whether the estimator has converged; and in response to a determination that the estimator has not converged within a predetermined period of time after starting the electric motor, signaling a first fault condition. | 2013-12-26 |
20130342143 | CONTROLLER AND CONTROL METHOD OF SYNCHRONOUS MOTOR WITH AMPLIFIER PROTECTION FUNCTION - The controller of the synchronous motor of the present invention includes: an allowable energy value acquisition unit ( | 2013-12-26 |
20130342144 | BRUSHLESS MOTOR CONTINUATION CONTROL IN A POWER TOOL - A control unit for controlling commutation of a brushless direct current (BLDC) motor provided. The control unit controls high-side and low-side switches arranged between a power source and the motor and configured as a three-phase bridge to commutate the motor. The control unit is configured to provide drive signals to drive each of the high-side and low-side switches to control, for each phase of the bridge, a pulse-width modulation (PWM) of one of the high-side or low-side switches. For each phase of the bridge, immediately following a first cycle ending with a falling edge of the drive signal for one of the high-side or low-side switches, the control unit introduces a special commutation edge pulse in the drive signal of the other of the high-side or low-side switches to shunt the current from the motor before turning both the high-side and the low-side switches off during a second cycle. | 2013-12-26 |
20130342145 | SYSTEM AND METHOD FOR ISOLATING THE UNDRIVEN VOLTAGE OF A PERMANENT MAGNET BRUSHLESS MOTOR FOR DETECTION OF ROTOR POSITION - The system and method disclose for the controlling of sequential phase switching in driving a set of stator windings of a multi-phase sensorless brushless permanent magnet DC motor. A motor controller controls a power stage that drives two windings of a set of three windings in the motor with pulse width modulated signal. A plurality of voltage values on an undriven winding of the set of three windings are sampled within a window of time, wherein a period beginning when the driven windings are energized and ending when the driven windings are de-energized encompasses the window of time. The sampled voltage values are processed. When the processed voltage values exceed a threshold, the motor controller changes which two windings are driven. | 2013-12-26 |
20130342146 | METHOD AND SYSTEM FOR SWITCHING BETWEEN DIFFERENT TYPES OF OPERATION OF A SENSORLESS PERMANENT MAGNET BRUSHLESS MOTOR AT LOW OR ZERO SPEED TO DETERMINE ROTOR POSITION - The system and method disclose for the controlling of motor switching. The system includes a controller unit having a control signal generator, a memory device, a processing unit, a signal acquisition device, and an analog-to-digital converter. A power stage has a plurality of switches and receives a control signal from the control signal generator and a power signal from a power source. The power stage drives two windings of the set of three stator windings with a multi-state pulse and leaves one stator of the three stator windings undriven. The processing unit acquires a demodulated measured voltage on the undriven winding. The processing unit communicates with the power stage to change which two windings of the three stator windings are driven when the demodulated measured voltage surpasses a threshold. | 2013-12-26 |
20130342147 | ASSEMBLY FOR CONTROLLING AN ELECTRIC VACUUM PUMP - An assembly for controlling an electric vacuum pump for a vehicle, which is connectable by at least one switch, which can be controlled by an electronic control unit, to a supply voltage, wherein the electronic control unit in a start-up phase connects the vacuum pump to an additional electrical resistor between the supply voltage and the vacuum pump. | 2013-12-26 |
20130342148 | ELECTRIC POWER STEERING DEVICE - A microcomputer calculates an internal resistance value of a motor, and subsequently calculates an internal resistance value of a switching element of a motor drive circuit. When the internal resistance value of the motor is a semi-abnormal value, the microcomputer sets an upper limit current. When the internal resistance value of the motor drive circuit is a semi-abnormal value, the microcomputer sets an upper limit current. The microcomputer sets a smaller one of the upper limit current and the upper limit current as an upper limit current of the motor. In this manner, the progress of degradation of the motor and the motor drive circuit can be suppressed. | 2013-12-26 |
20130342149 | MOTOR CONTROL DEVICE THAT DECREASES POWER CONSUMED BY CONTROL POWER SOURCE WHEN POWER FAILS - A PWM signal generation unit generates a PWM signal to drive a motor, based on a current value of the motor sampled by a current value sampling unit, a position or speed of the motor sampled by a motor sampling unit, and a position or speed of a driven object sampled by a driven object sampling unit. An operation stop unit stops the operation of any one of the motor sampling unit and the driven object sampling unit depending on the power stored in the DC link part and power to which the control power source can supply when the alternating-current power source fails. | 2013-12-26 |
20130342150 | DIAGNOSTIC METHOD FOR MOTOR - In a diagnostic device and a diagnostic method for a motor unit of an electric vehicle, an oil degradation/others detection unit is provided which is configured to detect at least any one detection item of a contamination degree, a degradation degree, and an oil amount of an oil used for cooling a motor unit or a reduction gear unit during a non-traveling period when the vehicle is powered on. An abnormalities-time control unit is provided which is configured to send notice of abnormalities of an oil supply system or not permit start of rotation of the motor unit when a detection value detected by the oil degradation/others detection unit is out of a setting range. | 2013-12-26 |
20130342151 | ELECTRIC POWER SUPPLY APPARATUS - A control device of an electric power supply apparatus controls a voltage applied to an inverter to fall within a voltage range between a first voltage that is the voltage of one of a first electric power supply and a second electric power supply and a second voltage that is the sum of the voltage of the first electric power supply and the voltage of the second electric power supply, by alternately switching between a series state in which a current loop that connects the first electric power supply, the second electric power supply, and a reactor in series with the inverter is formed, and a parallel state in which the first electric power supply and the second electric power supply are connected in parallel with the inverter as an electric load. | 2013-12-26 |
20130342152 | MULTI-SHAFT MOTOR DRIVE DEVICE AND MULTI-AXIS MOTOR DRIVE SYSTEM - A multi-shaft motor drive device comprises at least one amplifier module, a control substrate, and a power substrate. The at least one amplifier module is configured to supply power to at least one motor. The control substrate connected with the amplifier module. The power substrate is connected with the amplifier module. The amplifier module comprises a switching element. The control substrate is provided with a signal line disposed for controlling the switching element according to a motor control instruction from a master controller. The power substrate is provided with a power line disposed for supplying power to the amplifier module. The control substrate and the power substrate are arranged separately each other. | 2013-12-26 |
20130342153 | SOLAR CELL HAVING FAN STRUCTURE AND APPLICATION SYSTEM USING THE SAME - Disclosed are a solar cell having a fan structure that provides a more pleasant life, convenience, and stability by forming, in a fan structure, a flexible colour solar cell applied with a carbon dioxide absorption material, and configuring the formed flexible colour solar cell through convergence of information technology, and an electronic application apparatus using the same. The electronic application apparatus using a solar cell as a power source includes: an application device body portion including a both side supporter fixed to ground, a transmitter including an antenna capable of transmitting power and data, and a data screen to thereby provide a predetermined service; and the solar cell provided in an upper end of the application device body portion, to colour using a predetermined wavelength of light, and to perform solar power generation using a remaining wavelength of light. | 2013-12-26 |
20130342154 | CHARGING APPARATUS - A charging apparatus includes a power generation device, a first charging circuit, a second charging circuit, and a control circuit. The first charging circuit has an input terminal coupled to the power generation device and an output terminal coupled to a low-voltage battery. The first charging circuit increases or reduces an output voltage of the power generation device and charges the low-voltage battery. The second charging circuit has an input terminal and an output terminal coupled to a high-voltage battery having a voltage higher than the low-voltage battery. The second charging circuit increases a voltage inputted from the input terminal of the second charging circuit and charges the high-voltage battery. The control circuit couples the input terminal of the second charging circuit to one of the power generation device and the low-voltage battery, and controls the first charging circuit and the second charging circuit. | 2013-12-26 |
20130342155 | ELECTRICITY GENERATION SYSTEMS AND METHODS - A modular assembly comprises a frame formed of a network of elongate members, a deployment skid, an electricity generation skid, at least one foldable door hinged to the frame, and at least one racking assembly attached to the frame. The frame defines a plurality of modular bays including a deployment bay, an electricity generation bay, and at least one energy storage bay. The deployment skid interfaces with the deployment bay, and the solar generation skid interfaces with the solar generation bay. In exemplary embodiments, the electricity generation bay is a solar generation bay and the electricity generation skid is a solar generation skid, at least one photovoltaic module is attached to the racking assembly, and a control unit may be operably connected to the photovoltaic module. | 2013-12-26 |
20130342156 | BALANCE CORRECTING APPARATUS, ELECTRICITY STORAGE SYSTEM, AND TRANSPORTATION DEVICE - A balance correcting circuit is prevented from moving charges from a low-voltage electricity storage cell to a high-voltage electricity storage cell in a electricity storage system. The balance correcting circuit includes an inductor, a first switching device, a second switching device, and a control signal generating unit that supplies a control signal to the first and second switching devices to turn on and off the first and second switching devices so that the first switching device and the second switching device are alternately turned on and off. The control signal generating unit stops generating the control signal when receiving a state transition signal indicating that the electricity storage system transitions to and temporarily stays in a charging state while the electricity storage system is operating. | 2013-12-26 |
20130342157 | Electronic Cigarette Case - The present invention relates to an electronic cigarette case, includes a case body, a charging device disposed in the case body for charging electronic cigarettes. The charging device includes a charging base, a rechargeable battery, and a control circuit board integrated with a circuit processing unit. The charging base has an electrode support where first and second electrode elements, and a trigger element spaced apart from the second electrode element are all disposed on the electrode support. The second electrode element is flexibly deformable when one of the electronic cigarettes is inserted into the case body to create a charging circuit. The circuit processing unit automatically controls the rechargeable battery for charging the electronic cigarette being inserted until it is full of power, whereby the electronic cigarette case is readily to be assembled and to sue, and has a reliable electrical connection with an outer power source. | 2013-12-26 |
20130342158 | IN-VEHICLE CHARGING ADAPTOR DEVICE - An in-vehicle charging adaptor device includes a plug main body and a cap separatably matched with the plug main body. The plug main body has a cigarette lighter plug formed at one end thereof, an USB socket formed at the other end thereof. A circuit device is received in the plug main body electrically connected with the cigarette lighter plug and the USB socket. The present invention has reasonable structure design, reliable function, and convenient practical usage with decorative function. | 2013-12-26 |
20130342159 | MULTI-ORIENTATION STAND FOR A PORTABLE ELECTRONIC DEVICE - A stand for a portable electronic device includes a device receiving side including a coupling component for engaging with the portable electronic device when the portable electronic device is in a first orientation relative to the device receiving side and when the portable electronic device is in a second orientation relative to the device receiving side. The stand also includes a first support side adjacent to the device receiving side to act as a base when the portable electronic device is in the first orientation, and a second support side adjacent to the first support side to act as a base when the portable electronic device is in the second orientation. | 2013-12-26 |
20130342160 | POWER SUPPLY APPARATUS, CONTROL METHOD, AND RECORDING MEDIUM - A power supply apparatus includes a power supply unit that wirelessly supply power to an electronic device, a first communication unit that communicates, based on a first communication method, with the electronic device, a second communication unit that communicates, based on a second communication method that is different from the first communication method, with the electronic device, and a control unit that controls the first communication unit so as to acquire authentication data for a communication between the second communication unit and the electronic device if a remaining capacity of a battery, connected to the electronic device, is equal to or more than a predetermined value. | 2013-12-26 |
20130342161 | METHOD AND POWER TRANSMITTER FOR CONTROLLING POWER TRANSMISSION AGAINST OVERVOLTAGE AT POWER RECEIVER - Methods and apparatus are provided for controlling power transmission in a power transmitter against overvoltage at a power receiver. The power transmitter receives a subscription request to subscribe to a wireless power network, from the power receiver. It is determined whether power transmission is available for the power receiver. The power receiver is informed that the power transmission is beginning, when the power transmission is available. The transmission power is increased and transmitted. It is determined whether a stop request to stop increasing voltage is received at the power transmitter from the power receiver. The increase of the transmission power is stopped when the stop request is received at the power transmitter. Charging of the power receiver is started by transmitting a start charging command from the power transmitter to the power receiver. | 2013-12-26 |
20130342162 | CONTACTLESS CHARGING MODULE, CONTACTLESS CHARGING DEVICE, AND METHOD OF MANUFACTURING CONTACTLESS CHARGING MODULE - A contactless charging module, a contactless charging device, and a method of manufacturing the contactless charging module, wherein a magnetic sheet can be prevented from being damaged and giving an adverse effect on power transmission characteristic, by adopting a flexible magnetic sheet having slits, and wherein power transmission efficiency of the contactless charging module can be prevented from decreasing significantly. The contactless charging module is provided with: a planar coil unit; a magnetic sheet upon which the planar coil unit is to be mounted; a recess section or a slit that is formed on the magnetic sheet, and that is for housing therein a portion of a conductor wire of the planar coil unit; and a plurality of flexible slits that are for giving flexibility to the magnetic sheet. At least one of the plurality of flexible slits is formed such that a virtual extension line of the flexible slit will be arranged within the width of the recess section or the slit. | 2013-12-26 |
20130342163 | VEHICLE POWER CONTROL APPARATUS AND VEHICLE POWER CONTROL - A control unit of a vehicle power control apparatus performs an operation described below. The control unit fluctuates a voltage of an alternating-current power output from a discharging terminal with a power supplier when the control unit detects that a receiving terminal of an alternating-current load or a charging terminal is connected to the discharging terminal, or that a supply terminal of an alternating-current power supply or the discharging terminal is connected to the charging terminal. Also, the control unit directs a notifying portion to perform a notifying operation when the control unit detects that a voltage of alternating-current power input to the charging terminal is fluctuating in the same manner that a voltage of alternating-current power output from the discharging terminal is fluctuating. | 2013-12-26 |
20130342164 | ADD-ON COMMUNICATION APPARATUS ATTACHED TO IN-CABLE CHARGING CONTROL DEVICE AND OPERATING METHOD THEREOF - Disclosed is an add-on communication apparatus attached to an in-cable charging control device integrated with a cable assembly to charge an electric vehicle. The add-on communication apparatus includes a first communication module to make wireless communication with a terminal, a second communication module to make wireless communication with the in-cable charging control device, and a control module. The control module receives a command from the terminal through the first communication module, generates a first control command based on the command, and transmits the first control command to the in-cable charging control device through the second communication module. | 2013-12-26 |
20130342165 | Networked Universal Electric Vehicle Charging System - An electric vehicle charging station system has numerous charging nodes, each charging node including a charging station having at least two connector interfaces selected from the group consisting of a Level 1 charging device, a Level 2 charging device, a Tesla charging device, and a Level 3/Fast DC charging device, wherein the plurality of charging nodes are in communication with each other through a network. The charging station has a display device on each charging station with one or more portals for a web-based or consumer-focused content, wherein content is provided by a vendor concentrically located within a predetermined distance to the system, and other content provides the location of other charging nodes. A selection device allows the consumer to select a particular portal, wherein the selection device transmits the selected content to a mobile device associated with the consumer. | 2013-12-26 |
20130342166 | VEHICLE CHARGE SYSTEM AND VEHICLE CHARGE METHOD - A vehicle charge system has a connection cable to supply power from an outside power supply, such as a commercial power supply, a driving battery, an auxiliary battery, a driving battery charge apparatus, and an auxiliary battery charge apparatus. When a voltage across the auxiliary battery is below a predetermined constant value, power from the outside power supply is supplied to a control circuit of the auxiliary battery charge apparatus, so that the auxiliary battery charge apparatus charges the auxiliary battery on its own without being controlled by a charge control portion. | 2013-12-26 |
20130342167 | HYBRID ELECTRIC VEHICLE POWER MANAGEMENT SYSTEM - Level voltage levels/states of charge are maintained among a plurality of high voltage DC electrical storage devices/traction battery packs that are arrayed in series to support operation of a hybrid electric vehicle drive train. Each high voltage DC electrical storage device supports a high voltage power bus, to which at least one controllable load is connected, and at least a first lower voltage level electrical distribution system. The rate of power transfer from the high voltage DC electrical storage devices to the at least first lower voltage electrical distribution system is controlled by DC-DC converters. | 2013-12-26 |
20130342168 | ELECTRICAL STORAGE DEVICE - An electrical storage device includes a plurality of power-generating elements, a case, and a valve. The power-generating elements perform charge and discharge and are connected electrically in series. A plurality of housing sections each accommodate one of the plurality of power-generating elements and are disposed along a predetermined direction. A communication path switches from a closed state to an opened state depending on the internal pressure of the housing section. When the communication path is in the opened state, gas can be moved between two of the housing sections adjacent to each other in the predetermined direction. The valve is provided for a particular housing section and releases gas produced within the case to the outside of the case. The empty space other than the power-generating element is present in each of the housing sections, and the empty space in the particular housing section is the largest. | 2013-12-26 |
20130342169 | APPARATUS AND METHOD FOR ESTIMATING VOLTAGE OF SECONDARY BATTERY INCLUDING BLENDED CATHODE MATERIAL - Disclosed is an apparatus for estimating a voltage of a secondary battery which includes a cathode comprising a first cathode material and a second cathode material with different operating voltage ranges, an anode comprising an anode material and a separator for separating the cathode from the anode. The apparatus comprises a control unit configured to estimate a voltage of a secondary battery based on a circuit model including a first cathode material circuit, a second cathode material circuit and an anode material circuit, each circuit modeled to change its voltage according to State Of Charge (SOC) of the electrode material corresponding the circuit and a current flowing through the circuit. | 2013-12-26 |
20130342170 | BATTERY DISCHARGE DEVICE FOR REUSING DISCHARGE ENERGY AND METHOD USING BATTERY DISCHARGE DEVICE - A battery discharge device may include an accommodation unit to accommodate a battery, a controller to control a switch connected to the battery so that a first alternating current (AC) power is generated based on a discharge profile and a first direct current (DC) power discharged from the battery, a transformation unit to generate, based on the first AC power, a second AC power having a voltage higher than a voltage of the first AC power, and a rectification unit to generate a second DC power, based on the second AC power. | 2013-12-26 |
20130342171 | Battery Charging Interrupt - In embodiments of battery charging interrupt, a device ( | 2013-12-26 |
20130342172 | CHARGING DEVICE WITH BATTERY MANAGEMENT SYSTEM FOR RECHARGEABLE BATTERY - A charging device with battery management system which remains a rechargeable battery in full capacity during standby after being fully charged is disclosed. The charging device includes a charging module, electrically connected to a power source, for charging the rechargeable battery; a voltage detecting module, for detecting a voltage of the rechargeable battery; and a determination module, for instructing the charging module to charge the rechargeable battery with a supplementary current when the voltage of the rechargeable battery detected by the voltage detecting module reduces to a first predetermined voltage until the voltage of the rechargeable battery reaches a second predetermined voltage. Reduce of the voltage of the rechargeable battery is due to self-discharge of the rechargeable battery during standby after being fully charged. | 2013-12-26 |
20130342173 | CHARGING A BATTERY - A method and system for applying a multi-rate charge to a battery are included herein. The method includes detecting a plurality of predetermined electrical measurements and a plurality of predetermined charge currents. The method also includes detecting an electrical measurement of the battery. Additionally, the method includes selecting a charge current from the plurality of predetermined charge currents to be applied to the battery based on the electrical measurement of the battery and the plurality of predetermined electrical measurements. Furthermore, the method includes applying the charge current to the battery. The method also includes detecting a plurality of subsequent electrical measurements of the battery. In addition, the method includes applying a plurality of subsequent charge currents to the battery based on the plurality of subsequent electrical measurements of the battery and the plurality of predetermined charge currents. | 2013-12-26 |
20130342174 | CONTROL CIRCUIT FOR POWER DISTRIBUTION SWITCH - A control circuit is provided which includes a pre-charge circuit connected in parallel with a solid state switching device of, for example, a power distribution network. The pre-charge circuit pre-charges a load capacitance at a load side of the switching device prior to activation of the switching device. The pre-charge circuit includes a threshold waveform generation circuit and an over-current detect circuit. The threshold waveform generation circuit synthesizes a maximum acceptable charging waveform for the pre-charge circuit in charging the load capacitance, and the over-current detect circuit signals an over-current fault condition upon a charging current through the pre-charge circuit exceeding the synthesized, maximum acceptable charging waveform. The pre-charge circuit includes a sense resistor coupled to a power input side of the solid state switching device, with charging current through the pre-charge circuit being monitored via the sense resistor. | 2013-12-26 |
20130342175 | POWER SOURCE GENERATION CIRCUIT AND INTEGRATED CIRCUIT - A power source generation circuit includes a regulator circuit which receives an external power source voltage VDDA from an external power source, and generates a predetermined internal power source voltage on a given terminal VDD; and a charging circuit which connects the external power source and the given terminal when the external power source voltage VDDA supplied from the external power source is equal to or lower than a predetermined threshold voltage. | 2013-12-26 |
20130342176 | MULTI-PHASE SWITCHING-MODE POWER SUPPLY AND ASSOCIATED CONTROL METHOD - The present invention discloses a multi-phase switch-mode power supply (SMPS). The multi-phase SMPS may comprise a plurality of comparing circuits and a controller. Wherein each comparing circuit comprises a first input coupled to a threshold voltage, a second input coupled to a feedback signal of the output voltage, and an output configured to provide a load indication signal. The controller may have a plurality of inputs coupled to the outputs of the comparing circuit, and a plurality of outputs configured to provide control signals for driving a plurality of switches of the multi-phase SMPS. And the controller is configured to selectively turn on a plurality of the switches according to the load indication signals. | 2013-12-26 |
20130342177 | Power Supply Control - Controlling the output voltage of a power supply involve determining a remote load coupled to the power supply and setting the output voltage based on the determined remote load and a predetermined maximum current for the power supply. The remote load may be measured, for example, by applying a predetermined current to the load, measuring the voltage across the load, and computing the effective load (resistance) value based on the supplied current and the measured voltage. Such measurement may be done using an analog-to-digital converter. | 2013-12-26 |
20130342178 | POWER SUPPLY MODE SWITCHING CIRCUIT AND METHOD - A power supply mode switching circuit and method switch between power supply modes of a power supply device dynamically based on an operating current required for operation of an electronic product, such that the power supply device supplies a supplying current corresponding to the operating current. The circuit comprises a sampling unit, an amplifying unit, a comparing unit. The circuit is disposed between the power supply device and the electronic product, samples the supplying current from the power supply device with the sampling unit, and converts the supplying current into a sampling voltage. The amplifying unit converts the sampling voltage into an amplifying voltage by voltage amplification and outputs the amplifying voltage to the comparing unit. After comparing the voltage level of a reference voltage and that of the amplifying voltage, the comparing unit generates a control signal for switching the power supple modes of the power supply device. | 2013-12-26 |
20130342179 | METHOD FOR GENERATING PWM SIGNALS AND A PULSE WIDTH MODULATION POWER CONVERTER - A method and an apparatus for generating PWM signals is provided. Upon detection of a load transient, a new PWM period is started if the load transient occurs during the off-time of a PWM signal and exceeds a specific magnitude. | 2013-12-26 |
20130342180 | VOLTAGE REGULATOR CIRCUITRY AND DEVICES - Various embodiments provide voltage regulator circuitry and devices. An exemplary voltage regulator circuitry can include a current comparing unit configured to convert an output voltage from a charge pump to a current and to compare the current with at least two different reference currents to generate a comparison result. A logic controller can be configured to generate a clock frequency adjustment signal based on the comparison result. A programmable clock unit can be configured to adjust a frequency of a clock signal according to the clock frequency adjustment signal to send the clock signal to the charge pump. Accordingly, the disclosed voltage regulator device can have reduced power consumption and improved reliability. | 2013-12-26 |
20130342181 | VOLTAGE REGULATOR CONTROL USING INFORMATION FROM A LOAD - Disclosed are devices, apparatus, circuitry, components, mechanisms, modules, systems, and processes for controlling a voltage regulator in response to information from a load. In some implementations, transient minimizer circuitry is coupled to receive a notification signal indicating a change or an anticipated change in an electrical characteristic of the load. The transient minimizer circuitry is configured to generate a state command signal responsive to the notification signal. The state command signal indicates a state of the voltage regulator. The switching control circuitry is coupled to receive the state command signal from the transient minimizer circuitry. The switching control circuitry is configured to operate switch circuitry to control the state of the voltage regulator in accordance with the state command signal. | 2013-12-26 |
20130342182 | DC-DC CONVERTER WITH EFFICIENCY OUTPUT - A DC-DC converter includes efficiency reporting circuitry having an output that is a measure of efficiency. In an example, the DC-DC converter has an input voltage, an output voltage, and a switching circuit converting the input voltage to an intermediate voltage, and the efficiency reporting circuitry determines the ratio between the output voltage and the intermediate voltage. | 2013-12-26 |
20130342183 | SWITCHING REGULATOR CONTROL CIRCUIT WITH MULTIPLE CLOCK FREQUENCY SETTING MODES - A control circuit of a switching regulator includes a control pin for coupling with an external resistor; a resistor detecting circuit for detecting a resistance of the external resistor; a current generating module for generating a corresponding control current according to a detection result of the resistor detecting circuit; an oscillating circuit for generating a clock signal; and a mode-switching circuit. When the mode-switching circuit configures the oscillating circuit to operate in a resistor-controlled mode, the oscillating circuit generates the clock signal according to the control current so that the clock signal has a frequency corresponding to the resistance of the external resistor. When the mode-switching circuit configures the oscillating circuit to operate in a signal-controlled mode, the oscillating circuit generates the clock signal according to an external synchronous signal coupled with the control pin so that the clock signal is synchronized with the external synchronous signal. | 2013-12-26 |
20130342184 | Monolithic Group III-V Power Converter - A power arrangement that includes a monolithically integrated III-nitride power stage having III-nitride power switches and III-nitride driver switches. | 2013-12-26 |
20130342185 | POWER SUPPLYING APPARATUS AND CONTROL METHOD THEREOF - In order to improve power efficiency, a power supplying apparatus includes a switching amplification unit supplying a first load with most of electric power, and a linear amplification unit correcting an output voltage applied to the first load according to an input signal. Furthermore, an electric current which flows into the linear amplification unit at the time of the correcting is supplied to a second load from a power supply terminal of the linear amplification unit. | 2013-12-26 |
20130342186 | INTEGRATED ELECTRONIC DEVICE FOR MONITORING PARAMETERS WITHIN A SOLID STRUCTURE AND MONITORING SYSTEM USING SUCH A DEVICE | 2013-12-26 |
20130342187 | RESISTIVE VOLTAGE DIVIDER WITH IMPROVED PHASE ACCURACY - A resistive voltage divider includes a first resistor and a second resistor electrically connected in series. Each of the resistors is made of an electrically resistive film material and applied in the form of a trace onto an insulating substrate. The divider's voltage ratio has a value between one hundred and one million, where two ends of the trace of the second resistor overlap at least in part with a first and a second) contacting terminal, respectively, and two ends of the trace of the first resistor overlap at least in part with the first and third contacting terminal, respectively. In order to decrease the parasitic capacitance between the first contacting terminal and the third contacting terminal, the second contacting terminal is placed with at least a screening part between the first and the third contacting terminals. | 2013-12-26 |
20130342188 | Disassociated Split Sensor Coil for Power Distribution Line Monitoring - A disassociated split sensor coil manufactured from hemi-toroidal cores. Each core includes a surface channel extending from end to end, with wire sections being wound about the core to form a helical sensor coil electrically connected to a connecting wire returned through the surface channel. The connecting wires are interconnected to form a continuous electrical path, with terminal wires being electrically connectable to a monitoring circuit. Also, a method of manufacturing including obtaining a hemi-toroidal core having a surface channel, placing a first length of a wire within the surface channel so as to extend from end to end, winding a second length of the wire so as to form a helical coil section extending from end to end, providing a third length of the wire extending from one end, and repeating the steps to form a disassociated split sensor coil electrically connectable by joining the first lengths of wire. | 2013-12-26 |
20130342189 | ROTATIONAL DEVICE - A rotational device comprises a first portion, a rotatable body rotatable relative to the first portion and comprising at least one salient member, and a speed sensor arrangement for use in measuring a speed of rotation of the at least one salient member, the speed sensor arrangement comprises a signal electrode, at least a portion of which is located between the rotatable body and the first portion, there being an electric potential difference between the signal electrode and the first portion in use, the signal electrode being configured to output a first signal in use which is a function of the speed of rotation of the at least one salient member; a guard electrode, at least a portion of which is located between the signal electrode and the first portion, the guard electrode being separated from the signal electrode by at least a first electrically insulating portion, and the guard electrode being separated from the first portion by at least a second electrically insulating dielectric portion; and a buffer arrangement configured, in use, to provide a second electrical signal to the guard electrode; the second electrical signal being arranged to place the guard electrode at an electrical potential such that the potential difference between the signal electrode and the guard electrode is less than the potential difference between the signal electrode and the first portion. | 2013-12-26 |
20130342190 | Through Shaft Rotary Position Sensor - A rotary shaft sensor assembly includes 2 arc section magnets extending around the outer surface of a rotatable through shaft, arranged some distance from the shaft to produce a field, constant in strength and direction over a sufficiently large area. A sensor which measures changes in the direction of the magnetic flux generated by the magnets in response to rotation of the shaft is located anywhere in the field of constant strength and direction, specifically not needing to be located at the axis of rotation of the shaft. Optionally another such sensor can be mounted anywhere in the field at right angles to the first to allow for sensing over the full range of rotation of the shaft. | 2013-12-26 |
20130342191 | NON-CONTACT SHEET CONDUCTIVITY MEASUREMENTS IMPLEMENTING A ROTATING MAGNETIC BRAKING SYSTEM - A non-contact sheet conductivity measurement system includes a magnetic head apparatus, a computing system coupled to the magnetic head apparatus, a linear actuator coupled to the magnetic head apparatus, a motor controller coupled to the magnetic head apparatus, a power supply coupled to the magnetic head apparatus and a frequency meter coupled to the magnetic head apparatus | 2013-12-26 |
20130342192 | ANGLE SENSOR - An angle sensor includes a sensor rotor formed with a planar coil and a sensor stator placed to face the sensor rotor with a gap therefrom and formed with a planar coil. The planar coil of the sensor stator includes an SIN phase coil and a COS phase coil each having an annular ring shape, and a rotary transformer coil placed radially inside of a region where both the coils are provided. The rotary transformer coil includes two connecting wires to connect to an external circuit, the two connecting wires being arranged to extend across the coils. The two connecting wires are arranged one above the other in their portions that extend across the coils while an insulating film is interposed between the connecting wires. | 2013-12-26 |
20130342193 | SENSOR FOR DIGITIZER AND METHOD OF MANUFACTURING THE SAME - Disclosed herein are a sensor for a digitizer and a method of manufacturing the same. The sensor includes a magnetic layer having insulation; a first coil embedded in the magnetic layer; a second coil formed on one surface of the magnetic layer; and an insulating layer formed on one surface of the magnetic layer to cover the second coil. Thus, since the first coil and the second coil are formed on the magnetic layer formed of a magnetic material, a magnetic field is stably formed between coils and stability of signals transmitted and received between a coil and an input device is increased. | 2013-12-26 |
20130342194 | VERTICAL HALL SENSOR WITH SERIES-CONNECTED HALL EFFECT REGIONS - A vertical Hall sensor includes first and second vertical Hall effect regions in a semiconductor substrate, with first and second pluralities of contacts arranged at one side of the first or second vertical Hall effect regions, respectively. The second vertical Hall effect region is connected in series with the first vertical Hall effect region regarding a power supply. The vertical Hall sensor further includes first and second layers adjacent to the first and second vertical Hall effect regions at a side other than a side of the first or second pluralities of contacts. The first and second layers have different doping properties than the first and second vertical Hall effect regions and insulate the first and second vertical Hall effect regions from a bulk of the semiconductor substrate by at least one reverse-biased p-n junction per vertical Hall effect region during an operation of the vertical Hall sensor. | 2013-12-26 |
20130342195 | VERTICAL HALL DEVICE COMPRISING FIRST AND SECOND CONTACT INTERCONNECTIONS - A vertical Hall device includes a Hall effect region formed in a substrate and a sequence of at least six contacts arranged in or at a surface of the Hall effect region between a first contact and a last contact. The vertical Hall device also includes a first contact interconnection connecting the first contact with a third to the last contact. A vertical Hall device further includes a second contact interconnection connecting a third contact with the last contact. Further embodiments made to a sensing method for sensing a magnetic field parallel to a surface of a substrate. | 2013-12-26 |
20130342196 | Vertical Hall Device Comprising a Slot in the Hall Effect Region - A vertical Hall device includes a Hall effect region, a separator, a first plurality of contacts, and a second plurality of contacts. The Hall effect region includes a first straight section, a second straight section that is offset parallel to the first straight section, and a connecting section that connects the first straight section and the second straight section. The separator separates a portion of the first straight section from a portion of the second straight section. The first and second plurality of contacts are arranged in or at the surface of the first and second straight sections, respectively. With respect to a first clock phase of a spinning current scheme, the first plurality of contacts comprises a first supply contact and a first sense contact. The second plurality of contacts comprises a second supply contact and a second sense contact. | 2013-12-26 |
20130342197 | MAGNETIC-FIELD DETECTING DEVICE - A magnetic-field detecting device includes a pair of magneto-sensors including respective magnetism sensing portions that sense magnetism, and respective coils sensing changes of magnetic fluxes in the magnetism sensing portions, and an elongate connecting member cooperating with the magnetism sensing portions to constitute a magnetic circuit. A magnetism sensing direction of the magnetism sensing portions coincides with a longitudinal direction of the connecting member to an extent that permits the coils to equally sense a magnetic field applied to the coils the connecting member being formed of a magnetic material having a relative magnetic permeability of at least 100, a magnetic material having a relative magnetic permeability which is at least 1/100 of that of a magnetic material of the magnetism sensing portions, or the same magnetic material as the magnetism sensing portions the magnetic-field sensor measuring the magnetism on the basis of a difference between outputs of the coils. | 2013-12-26 |
20130342198 | Local Coil for a Magnetic Resonance Imaging System and Magnetic Resonance Imaging System - A local coil for a magnetic resonance imaging system for acquisition of magnetic resonance signals includes a receiving mechanism for wireless transmission of operating energy of the local coil and/or a signal of the magnetic resonance imaging system. The receiving mechanism is configured to take the operating energy and/or the signal from a supply field. A magnetic resonance imaging system is also provided. The magnetic resonance imaging system includes a transmitting mechanism for wireless transmission of operating energy of a local coil and/or a signal of the magnetic resonance imaging system. The transmitting mechanism has a transmission signal generator that is connected to a field source and a field sink. The transmitting mechanism is constructed such that, in operation, the operating energy and/or the signal is transmitted by a supply field that is present as an electrical alternating voltage field between the field source and the field sink. | 2013-12-26 |
20130342199 | Determination of Communication Latency in Magnetic Resonance Tomography Systems - A method for determining communication latency in a magnetic resonance tomography system includes emitting a high-frequency pulse at a first timepoint, receiving the high-frequency pulse by a local coil arrangement of the magnetic resonance tomography system, and transmitting a return signal from the local coil arrangement to a receiving unit. The method also includes receiving the return signal by the receiving unit at a second timepoint, and evaluating a time difference between the first timepoint and the second timepoint in order to determine the communication latency. | 2013-12-26 |
20130342200 | Method for Reducing Power Deposition in Magnetic Resonance Imaging Using Multiband Pulses and Multichannel Transmission - A method is provided for substantially simultaneously manipulating spins in a plurality of slice locations using a magnetic resonance imaging [“MRI”) system that includes a radio frequency (“RF”) coil array composed of a plurality of RF coil dements, and in which power deposition, which may be measured as specific absorption rate (“SAR”), is reduce A plurality of slice locations to be substantially simultaneously manipulated with the MRI system are selected, and an RF transmission map (B | 2013-12-26 |
20130342201 | SYSTEM AND METHOD FOR DETERMINING MOLECULAR STRUCTURES IN GEOLOGICAL FORMATIONS - Molecular structures of organic molecules in a geological formation are determined. The organic molecules may include kerogen, coal, and/or other organic molecules. In particular, the technique implmented may operate to convert nuclear magnetic resonance data into a multi-dimensional space that permits identification of molecular structures through comparisons of intensity information across the multi-dimensional space with a cutoff map of the space. This may not only simplify the identification of molecular structures of the organic molecules, but also use exact mathematical model for mixture samples to derive both structural and dynamic parameters plus their variation. | 2013-12-26 |
20130342202 | MAGNETIC RESONANCE SYSTEM AND OPERATING METHOD FOR FLOW ARTIFACT REDUCTION IN SLAB SELECTIVE SPACE IMAGING - In a SPACE (Sampling Perfection with Application optimized Contrasts using different flip angle Evolutions) or equivalent magnetic resonance imaging pulse sequence, the readout dephasing gradient is generated (activated) so as to occur immediately in front of the second refocusing pulse, thereby eliminating the long time duration that occurs in conventional SPACE or equivalent sequences between excitation and readout. This long time duration has been identified as a source for flow-related artifacts that occur in images reconstructed from data acquired according to conventional SPACE or equivalent sequences. By eliminating this long time duration, such flow-related artifacts are substantially reduced, if not eliminated. | 2013-12-26 |
20130342203 | SPECTROSCOPIC SAMPLE ANALYZER AND SAMPLE HANDLING SYSTEM - A spectroscopic sample analysis apparatus includes an actively controlled heat exchanger in serial fluid communication with a spectroscopic analyzer, and a controller communicably coupled to the heat exchanger. The heat exchanger is disposed downstream of a fluid handler in the form of a stream selection unit (SSU), a solvent/standard recirculation unit (SRU), and/or an auto-sampling unit (ASU). The SSU selectively couples individual stream inputs to an output port. The SRU includes a solvent/standard reservoir, and selectively couples output ports to the heat exchanger, and returns the solvent/standard sample to the reservoirs. The ASU includes a sample reservoir having a sample transfer pathway with a plurality of orifices disposed at spaced locations along a length thereof. The controller selectively actuates the fluid handler, enabling sample to flow therethrough to the heat exchanger, and actuates the heat exchanger to maintain the sample at a predetermined temperature. | 2013-12-26 |
20130342204 | MAGNETIC RESONANCE IMAGING METHOD - In a magnetic resonance imaging method and apparatus, navigation data are collected in a navigation acquisition timeslot of a scanning sequence. A determination as to whether to accept or reject echo data that are subsequently collected in multiple echo acquisition timeslots is made. If the phase relationship of the navigation data and the reference data in k-space is greater than or equal to the reference value, the collected echo data are accepted and if the aforementioned phase in k-space is less than the reference value, the collected echo data will be rejected, and sequential scanning will be performed again, and the navigation data again will be collected using the navigation acquisition timeslot, and the aforementioned determination is repeated. | 2013-12-26 |
20130342205 | SMALL MAGNET AND RF COIL FOR MAGNETIC RESONANCE RELAXOMETRY - Small and inexpensive probeheads for use in nuclear magnetic resonance systems, in particular, magnetic resonance relaxometry systems are provided. The design of the magnet-radiofrequency coil configurations within the probeheads is guided by an excitation bandwidth associated with radiofrequency pulses to be applied to a sample. | 2013-12-26 |
20130342206 | Method for Rapid Whole Brain Magnetic Resonance Imaging with Contrast Preparation - A method for acquiring image data from a plurality of slice locations in a subject with a magnetic resonance imaging (MRI) system is provided. The method includes directing the MRI system to perform a pulse sequence that includes performing a contrast preparation module configured to generate contrast-encoded longitudinal magnetization and an image encoding module configured to acquire image data from multiple slice locations substantially simultaneously. The contrast preparation module generally includes tipping longitudinal magnetization into the transverse plane to produce transverse magnetization, generating contrast-prepared transverse magnetization by establishing an image contrast in the transverse magnetization, and tipping the contrast-prepared magnetization back along the longitudinal axis to produce the contrast-encoded longitudinal magnetization. | 2013-12-26 |
20130342207 | MAGNETIC RESONANCE USING QUAZI-CONTINUOUS RF IRRADIATION - The invention relates to a method of MR imaging of at least a portion of a body ( | 2013-12-26 |
20130342208 | EXAMINING POROUS SAMPLES - Apparatus for examining a fluid-containing porous sample, by a combination of centrifuging to move fluid into, out of, and/or within the sample and NMR to monitor the amount of fluid present at locations within the sample has a magnet system to provide a magnetic field; and a centrifuge rotor comprising a holder ( | 2013-12-26 |
20130342209 | HIGH SPEED SAMPLE TRANSPORTATION APPARATUS IN A SUPERCONDUCTING MAGNET AND TRANSPORTING METHOD THEREOF - A precision high-speed shuttle device for transporting samples between different positions of a superconducting magnet with different magnetic field strength is provided. The sample equilibrated at the center of the magnet, where the magnetic field is the highest and homogeneous, is shuttled to a higher position above, where the fringe field is lower, for a defined period of time and shuttled back to the center for detection. By shuttling the sample to different positions in the magnet in different experiments one can obtain a field-dependent profile of particular physical parameters. The position and timing of the sample are precisely under the experimental controlled. In this way various magnetic field-dependent nuclear magnetic resonance (NMR) experiments can be conducted in a single high-field NMR spectrometer. | 2013-12-26 |
20130342210 | DOWNHOLE ALL-OPTICAL MAGNETOMETER SENSOR - Various systems and methods for implementing and using a downhole all-optical magnetometer include downhole all-optical magnetometer sensor, including optical receiving ports that receive light pulses, a depolarizer that depolarizes received light pulses, and a polarizer that polarizes depolarized light pulses from the depolarizer. The sensor further includes a vapor-filled cell through which polarized light pulses from the polarizer are directed, wherein interactions between vapor and a magnetic field within the vapor-filled cell alter at least some of the polarized light pulses, and an optical transmitting port that directs altered light pulses from the vapor-filled cell out of the sensor. | 2013-12-26 |
20130342211 | Impedance Spectroscopy Measurement Device And Methods For Analysis Of Live Reservoir Fluids And Assessment Of In-Situ Corrosion Of Multiple Alloys - A method for analyzing fluid withdrawn from a subsurface formation includes disposing the withdrawn fluid in a chamber and maintaining the fluid in the chamber substantially at a same temperature and pressure as exists in the subsurface formation. Electric current is passed through the fluid in the chamber using at least one electrode made from a selected metal, the electric current comprising direct current and alternating current of frequency sufficient to determine at least one of (i) resistance of the fluid sample in the chamber directly and (ii) from the direct current determine a polarization resistance of the at least one electrode. | 2013-12-26 |
20130342212 | DIAGNOSTIC DEVICE FOR DEGRADATION OF RECHARGEABLE LI-ION BATTERY - A diagnostic device which can measure quickly and has simple circuit is provided. A charge/discharge circuit | 2013-12-26 |
20130342213 | BATTERY MODULE AND METHOD OF TESTING THE SAME - A battery module may include a plurality of rechargeable batteries; a receiving member that inserts the rechargeable batteries; a protective circuit module that is fixed on the receiving member and that is electrically connected to the rechargeable batteries; a circuit connector that is connected to the protective circuit module and that has a plurality of terminals; and a battery connector that is electrically connected to the rechargeable batteries and that is coupled to the circuit connector. | 2013-12-26 |
20130342214 | BATTERY MANAGEMENT SYSTEM - A battery management system for a battery pack including a plurality of battery cells connected in series is provided. The battery management system includes a voltage divider, a plurality of switching units and a detection circuit. Each switching unit is corresponding to one of the battery cell and coupled between an anode of the corresponding battery cell and the voltage divider. When a control signal directs one of the switching units to turn on, the voltage divider divides a voltage difference transmitted from the one of the switching units to obtain a divided voltage signal, and transmits the divided voltage signal to the detection circuit, and the detection circuit detects the voltage difference according to the divided voltage signal, wherein the voltage difference is a voltage difference between an anode of the battery cell corresponding to the one of the switching units and a ground. | 2013-12-26 |
20130342215 | INSULATED CONDITION DETECTOR WITH FAULT DETECTION AND LOCATION - If a charge voltage of a read capacitor Ca measured by a microcomputer | 2013-12-26 |
20130342216 | POWER GENERATING COMPONENT CONNECTIVITY TESTING - Power generating component connectivity testing methods and apparatus are disclosed. At a power generating component, a connectivity testing condition is detected. A connectivity testing procedure is performed on detection of the connectivity testing condition, to test connectivity in a system that includes the power generating component and an unpowered electrical system. Connectivity is tested before the electrical system is connected to a power grid. An indication of connectivity can be provided by receiving connectivity information indicating connectivity between power generating components and the unpowered electrical system; and providing a representation of the connectivity between the power generating testing procedure components and the electrical system. This representation could include, for example, one or more of: a connectivity alert, a visual representation of the power generating components; and a visual representation of the electrical system. | 2013-12-26 |
20130342217 | MODELING DEVICE, PROGRAM, COMPUTER-READABLE RECORDING MEDIUM, AND METHOD OF ESTABLISHING CORRESPONDENCE - A modeling device is disclosed that easily projects characteristic information obtained from an object onto a differently-shaped object, even if the object, from which the characteristic information is obtained, has a complex shape. A modeling device in one embodiment of the present invention includes a virtually electrifying section to calculate an electric potential at a spot in a heart at the time when a predetermined voltage is applied to the heart, and a projecting section to project a fiber orientation onto a heart model created on the basis of shape information that is input to the input section. The projecting section specifies a spot to be a target of projection on the basis of the electric potential obtained by the virtually electrifying section. Use of the electric potential in specifying the spot makes it possible to easily project the fiber orientation onto any heart having complex and various shapes. | 2013-12-26 |
20130342218 | Cable Detector - A measuring device for detecting a conductor that carries alternating voltage, includes a voltage source configured to produce two phase-shifted alternating voltages, two complex impedance elements having first connections, which are connected to the alternating voltages, and second connections, which are connected to each other and to which a differential voltage is applied, and a control device configured to control the alternating voltages in such a way that a component of the differential voltage synchronous with the alternating voltages is minimized in magnitude. The control device is configured to detect the conductor if a ratio of the alternating voltages does not correspond to a ratio of the complex impedance elements in the absence of the conductor. The second complex impedance element is changeable with a control voltage. A probe is configured to provide the control voltage as a function of an alternating electromagnetic field induced by the conductor. | 2013-12-26 |
20130342219 | CAPACITIVE POSITION SENSOR - A transducer includes a plurality of electrodes and a dielectric shuttle. The dielectric shuttle passes between a subset of the electrodes, modifying the capacitance between them. By measuring the capacitance of subsets of the electrodes, the position of the dielectric shuttle may be determined. | 2013-12-26 |
20130342220 | ELECTROSTATIC CAPACITANCE DETECTION DEVICE - An electrostatic capacitance detection device includes a plurality of electrodes configured to detect an electrostatic capacitance, an electrostatic capacitance measurement part configured to select one electrode from the plurality of electrodes as a detection electrode, to allow the electrodes other than the detection electrode to be in a first electric potential condition and then to be in a second electric potential condition that is different from the first electric potential condition, and to measure a first voltage of the detection electrode in the first electric potential condition and a second voltage of the detection electrode in the second electric potential condition, and a judgment part configured to compare measurement values based on the first and the second voltages of the detection electrode, thereby to judge whether the detection electrode is in a short circuit condition. | 2013-12-26 |
20130342221 | METAL NANOSTRUCTURED NETWORKS AND TRANSPARENT CONDUCTIVE MATERIAL - Metal nanowires, such as silver nanowires coated on a substrate were sintered together to form fused metal nanowire networks that have greatly improved conductivity while maintaining good transparency and low haze. The method of forming such a fused metal nanowire networks are disclosed that involves exposure of metal nanowires to various fusing agents on a short timescale. The resulting sintered network can have a core-shell structure in which metal halide forms the shell. Additionally, effective methods are described for forming patterned structure with areas of sintered metal nanowire network with high conductivity and areas of un-sintered metal nanowires with low conductivity. The corresponding patterned films are also described. When formed into a film, materials comprising the metal nanowire network demonstrate low sheet resistance while maintaining desirably high levels of optical transparency with low haze, making them suitable for transparent electrode, touch sensors, and other electronic/optical device formation. | 2013-12-26 |
20130342222 | ROTARY INPUT APPARATUS - In a rotary input apparatus, a stationary ground electrode, a first stationary sensing electrode, and a second stationary sensing electrode are formed on a stationary facing surface of a stationary plate. The first stationary sensing electrode includes first facing portions and a first connecting portion electrically connecting the first facing portions, and the second stationary sensing electrode includes second facing portions and a second connecting portion electrically connecting the second facing portions. Each of the first facing portions has a different phase from that of the corresponding one of the second facing portions in a rotation direction. When a rotary electrode, which is provided on a rotary portion, rotates, an encoded signal of a first phase is obtained between the first stationary sensing electrode and the ground potential, and an encoded signal of a second phase is obtained between the second stationary sensing electrode and the ground potential. | 2013-12-26 |
20130342223 | FUEL PROPERTY MEASURING DEVICE - A measuring device for measuring a property of fuel that flows in a fuel chamber, is provided with a substrate including an electrode-placing surface, and a pair of electrodes disposed on the electrode-placing surface with a space between n each other. The substrate is disposed in the fuel chamber so that the electrode-placing surface is inclined with respect to a horizontal direction. The fuel chamber may include an inlet into which the fuel flows, and an outlet out of which the fuel flows. An inlet-side end of the electrode-placing surface may be lower than an outlet-side end of the electrode-placing surface. | 2013-12-26 |
20130342224 | SENSOR SYSTEM FOR MONITORING SURROUNDINGS ON A MECHANICAL COMPONENT, AND METHOD FOR ACTUATING AND EVALUATING THE SENSOR SYSTEM - A sensor system for monitoring surroundings on a mechanical component, includes at least one capacitive sensor element that is attachable to the surface of machines or machine parts, the at least one sensor element being constructed from a layered structure of flexible electrically conductive and electrically insulating plies, electrically conductive potential surfaces of one ply being disposed, laterally spaced apart via insulating plies located therebetween, in such a way that electric field lines form between the conductive potential surfaces and change measurably upon proximity and/or contact of a body or an object. The layered structure of a sensor element has at least two measuring elements operating separately from one another. | 2013-12-26 |
20130342225 | Capacitive Analysis of a Moving Test Material - The capacitive measuring circuit for a moved elongated test material contains at least two measuring capacitors, each of which is configured for receiving the test material. It further contains electrically actuatable selection means, by means of which one of the measuring capacitors can be selected in such a way that only the selected measuring capacitor contributes to the measurement, whereas the other measuring capacitors do not. As a result, the total capacitance of the measuring circuit is reduced and its sensitivity is increased. | 2013-12-26 |
20130342226 | Touch Panel with Multi-Function Single Plate - A touch panel with single plate includes a plate and a sensing circuit structure. The plate is used as a cover. The sensing circuit structure includes a transparent conductive layer. The transparent conductive layer has a plurality of first transparent conductive portions and a plurality of second transparent conductive portions. The first transparent conductive portions are substantially disposed on the plate along with a first axis. The second transparent conductive portions are substantially disposed on the plate along with a second axis. | 2013-12-26 |
20130342227 | RESISTIVE STRUCTURE AND RESISTIVE VOLTAGE DIVIDER ARRANGEMENT - A resistive structure has an improved electric field profile deposited on the surface of a cylindrical insulating substrate. At least one resistive path or trace is provided with a helix-looking shape and is directly printed on the surface of the insulating substrate. A resistive voltage divider includes first and second resistors electrically connected in series, where each resistor is made of one or more traces of electrically resistive film material applied onto a cylindrical insulating substrate. At least one of the traces is shaped like a helix and is applied onto the substrate by direct printing. | 2013-12-26 |
20130342228 | TEST METHOD FOR SENSE CIRCUIT - Embodiments are directed to coupling a first transformer to a first load, coupling a second transformer to a second load, applying a single phase power source to the first transformer, applying an inverted version of the power source to the second transformer, coupling a sensing circuit to the first and second transformers, and monitoring, by the sensing circuit, signal contributions associated with the first and second transformers. | 2013-12-26 |
20130342229 | LIQUID CRYSTAL DISPLAY AND DEAD PIXEL TEST CIRCUIT AND METHOD FOR LIQUID CRYSTAL DISPLAY - A liquid crystal display includes a liquid crystal display panel and a test circuit. The liquid crystal panel includes a number of scanning lines and a number of data lines cooperatively forming a pixel cell. The test circuit includes a control unit, a gate driving circuit, a data driving circuit and a detecting circuit. The gate driving circuit and the data driving circuit respectively provide a scan pulse and a test pulse to the pixel cells. The test pulse includes a first voltage. After a predefined period for providing the scan pulse and the test pulse to the pixel cells, the detecting circuit detects a voltage of the data lines, and determines the pixel cell is damaged if the voltage of the data lines is equal to the first voltage. A test circuit and a test method for detecting damaged pixel cells are also provided. | 2013-12-26 |
20130342230 | High Throughput Current-Voltage Combinatorial Characterization Tool and Method for Combinatorial Solar Test Substrates - Measuring current-voltage (I-V) characteristics of a solar cell using a lamp that emits light, a substrate that includes a plurality of solar cells, a positive electrode attached to the solar cells, and a negative electrode peripherally deposited around each of the solar cells and connected to a common ground, an articulation platform coupled to the substrate, a multi-probe switching matrix or a Z-stage device, a programmable switch box coupled to the multi-probe switching matrix or Z-stage device and selectively articulating the probes by raising the probes until in contact with at least one of the positive electrode and the negative electrode and lowering the probes until contact is lost with at least one of the positive electrode and the negative electrode, a source meter coupled to the programmable switch box and measuring the I-V characteristics of the substrate. | 2013-12-26 |
20130342231 | SEMICONDUCTOR SUBSTRATE WITH ONBOARD TEST STRUCTURE - Various interposers and methods of manufacturing related thereto are disclosed. In one aspect, a method of manufacturing is provided that includes fabricating a first test structure onboard an interposer that has a first side and second side opposite the first side. Additional test structures may be fabricated. | 2013-12-26 |
20130342232 | PROBE CARD AND MANUFACTURING METHOD - There is provided a probe card in contact with pads formed on a plurality of semiconductor dies on a wafer to test the semiconductor dies. The probe card includes a printed circuit board on which a plurality of pads are formed; a block plate having a plurality of grooves and attached to the printed circuit board; a plurality of sub-probe units equipped with a plurality of probe tips in contact with the pads of the semiconductor dies and detachably coupled to the plurality of grooves; and a plurality of interposer/space transformer units interposed between the sub-probe units and the printed circuit board and configured to electrically connect the probe tips to the pads of the printed circuit board and transform a pitch of the pads formed on the printed circuit to a pitch of the plurality of probe tips. | 2013-12-26 |
20130342233 | Wafer Level Integrated Circuit Contactor and Method of Construction - A testing device for wafer level testing of IC circuits is disclosed. An upper and lower pin ( | 2013-12-26 |
20130342234 | PROBE-ON-SUBSTRATE - Probes are directly patterned on a test substrate, thereby eliminating a need for an interposer. Probe contact structures are formed as a two-level structure having a greater lateral dimension for a lower level portion than for an upper level portion. First cavities are formed in a masking layer applied to a test substrate, filling the cavities with a conductive material, and planarizing the top surfaces of the conductive material portions to form lower level portions. Another masking layer is applied over the lower level portions and patterned to define second cavities having a smaller lateral dimension that the lower level portions. The second cavities are filled with at least one conductive material to form upper level portions of the probe contact structures. The upper level portion of each probe contact structure can be employed to penetrate a surface oxide of solder balls. | 2013-12-26 |
20130342235 | PROBE CARD - The present invention relates to a probe card having improved electrical characteristics and mechanical durability of a portion where the probe needle and bump electrode of the probe card come into contact with each other. | 2013-12-26 |
20130342236 | TEST INTERFACE BOARDS AND TEST SYSTEMS - A test interface board comprises at least one switch matrix including a plurality of switching elements that connect a plurality of connection nodes to each other. The at least one switch matrix is configured to connect a plurality of channels of an automatic test equipment (ATE) to respective pin positions corresponding to a device under test (DUT) in response to switching control signals. The plurality of channels provide test operation signals for testing the DUT. A control logic is configured to generate the switching control signals based on pin configuration information of the DUT. | 2013-12-26 |
20130342237 | POWER SUPPLY TEST DEVICE - A power supply test device includes a function generator, a loading circuit, a current detection circuit, and a controller. The function generator outputs a square-wave signal to the loading circuit. The loading circuit is electronically connected to a power supply, the loading circuit regulates an output current of the power supply according to the square-wave signal. The current detection circuit cooperates with the controller in detecting a slope of the output current. The controller compares the detected slope with a preset value, and regulates the square-wave signal according to the comparison to regulate the slope of the output current. | 2013-12-26 |
20130342238 | SEMICONDUCTOR DEVICE INCLUDING TRI-STATE CIRCUIT - Disclosed herein is a device that includes first and second logic circuits driving first and second output nodes, respectively. The first logic circuit includes first and second transistors that are coupled in series between the first output node and a power line, in which the first transistor is controlled to change between a conductive state and a non-conductive state and the second transistor is controlled to keep a conductive state. The second gate circuit includes third and fourth transistors that are coupled in series between the second output node and the power line, in which each of the third and fourth transistors is controlled to change between a conductive state and a non-conductive state. | 2013-12-26 |
20130342239 | INVALID SIGNAL FILTERING METHOD AND SHIFTER UTILIZING THE METHOD - A shifter with invalid signal filtering mechanism, comprising: a first shifting stage, for receiving and capturing an input signal in a first clock cycle; and a second shifting stage, after the first shifting stage, for receiving the input signal from the first shifting stage, and for receiving a validity signal indicating whether the input signal is valid or invalid, before a second clock cycle next to the first clock cycle occurs; wherein the second shifting stage captures the input signal transmitted from the first shifting stage if the validity signal indicates that the input signal is valid, where the second shifting stage does not capture the input signal transmitted from the first shifting stage if the validity signal indicates that the input signal is invalid. | 2013-12-26 |
20130342240 | PARTIAL RESPONSE DECISION FEEDBACK EQUALIZER WITH SELECTION CIRCUITRY HAVING HOLD STATE - A partial response decision feedback equalizer (PrDFE) includes a receiver including at least first and second comparators operative to compare an input signal representing a sequence of symbols against respective thresholds and to respectively generate first and second receiver outputs. A first selection stage is provided to select (a) between the first comparator output and a first resolved symbol according to a first timing signal, and (b) between the second comparator output and the first resolved symbol according to the first timing signal, to produce respective first and second selection outputs. A second selection stage selects between the first and second selection outputs according to a selection signal. The selection signal is dependent on a prior resolved symbol that precedes the first resolved symbol in the sequence. | 2013-12-26 |