43rd week of 2012 patent applcation highlights part 18 |
Patent application number | Title | Published |
20120268044 | High Efficiency All-Electric Vehicle Propulsion System - An all-electric vehicle propulsion system using a readily available high frequency AC Motor such as a 3-phase 400 Hz motor. A step-down gearbox increases torque and power thus decreasing the need for a high-power motor. Also, with the controllers of the invention, readily available, inexpensive batteries can be used as a primary source of energy. An efficient C&A-DC/DC step-up converter to power a high-efficiency motor driver can force the AC-motor windings circulate current in a resonance mode at around 220 volts. While 400 Hz and 220 volts are preferred, any voltage or frequency may be used, as well as any number of phases. Vehicle speed and torque can controlled by changing frequency and voltage applied to the motor usually using a variable resistor. | 2012-10-25 |
20120268045 | METHOD AND APPARATUS FOR BRAKING AN ELECTRIC MOTOR - The invention provides a method and apparatus for braking an electric motor. The apparatus includes an electric motor, an electric generator, and an electrical circuit arrangement capable of connecting the electric generator to the electric motor. The electric generator generates an instantaneous generator electromotive force at substantially equal magnitude and opposite polarity to an instantaneous motor electromotive force present in the electric motor. The electrical circuit arrangement is capable of supplying the instantaneous generator electromotive force to the electric motor. The instantaneous generator electromotive force is supplied in response to connecting the electric generator and the electric motor. The instantaneous generator electromotive force substantially negates the instantaneous motor electromotive force, thereby braking the electric motor. | 2012-10-25 |
20120268046 | CONTROL DEVICE FOR ALTERNATING CURRENT MOTOR - A control device for an alternating current motor according to embodiments includes a current distributor and a phase estimator. The current distributor divides a torque command by using a control phase and outputs a component that contributes to a mechanical output of the motor as a δ-axis current command and a component that does not contribute to the mechanical output as a γ-axis current command. The phase estimator computes a phase at which a γ-axis component of an addition amount of the output of the current controller and a voltage drop amount of inductance of the motor becomes zero and outputs the computed phase as the control phase. | 2012-10-25 |
20120268047 | FAN MOTOR DRIVING DEVICE, AND COOLING DEVICE AND ELECTRONIC MACHINE USING THE SAME - The objective of the present invention is to miniaturize a driving circuit of a fan motor. The present invention provides a driving device for driving a fan motor as a three-phase brushless DC motor. An inbuilt Hall component is disposed adjacent to the fan motor and generates a pair of Hall signals corresponding to a rotor position of the fan motor. An internal power source supplies a bias signal to the inbuilt Hall component. A Hall signal processing portion cancels a shift of the pair of Hall signals and amplifies the Hall signal. A driving processing circuit drives the fan motor according to an output signal of the Hall signal processing portion. The driving device is integrated on a semiconductor substrate. | 2012-10-25 |
20120268048 | CONTROL SYSTEM FOR ELECTRIC MOTOR APPLIED TO CYCLIC LOADS AND CONTROL METHOD FOR ELECTRIC MOTOR APPLIED TO CYCLIC LOADS - The present application refers to a system and a control method especially applied to electric motors designed to drive cyclical loads. The present system includes an electric motor ( | 2012-10-25 |
20120268049 | System for Driving Elongated Electric Machines - Complete drive system, called motor-drive unit, for use in remote locations with limited radial space like downhole, narrow tunnels, pipelines and other applications with similar conditions. Given the spatial limitations the unit must have elongated shape. It includes a number of motors connected mechanically in series and a lower number of inverters, driving groups of the motors so that load is equally distributed along axis of the unit. Motors within each group can be electrically connected in series or in parallel. The motor-drive unit is supposed to be fed by DC voltage via a cable with length up to several km; therefore, it includes a buck converter for stabilization of voltage inside the unit and a power-line communication module to be controllable from the surface. | 2012-10-25 |
20120268050 | Method and Apparatus for Estimating Rotor Position in a Sensorless Synchronous Motor - The present invention provides a simple, robust, and universal position observer for use with sensorless synchronous machines. The observer may be implemented using an equivalent EMF model of a synchronous machine or, alternately, using a sliding mode controller based on the equivalent EMF model of the synchronous machine. The observer may be used on any type of synchronous machine, including salient or non-salient pole machines such as a permanent magnet, interior permanent magnet, wound rotor, or reluctance synchronous machine. The observer provides low sensitivity to parameter variations and disturbances or transient conditions in the machine. In addition, no knowledge of speed is required as an input to the observer and an estimated position may be calculated using a subset of the machine parameters. | 2012-10-25 |
20120268051 | PULSE WIDTH MODULATION FAN CONTROLLER - A pulse width modulation (PWM) fan controller is used for an electronic device. The PWM fan controller includes a number of PWM signal generators, a number of PWM signal output elements, and a control unit. The control unit includes a number of outputs. An input of each PWM signal generator is electrically connected to a corresponding output of the control unit. An input of each PWM signal output element is electrically connected to an output of a corresponding PWM signal generator. An output of each PWM signal output element is electrically connected to a corresponding fan of the electronic device. The control unit is configured to control the PWM signal generators to sequentially generate a PWM signal to drive a corresponding fan to rotate in a preset time. | 2012-10-25 |
20120268052 | MOTOR CONTROL DEVICE AND METHOD OF CONTROLLING THE SAME - A motor control device including a preprocessing portion calculating a counter electromotive force using an analog operation is provided. The motor control device may include an offset compensation portion and a counter electromotive force measuring portion. The offset compensation portion receives a three-phase current signal from the motor and compensates an offset of the three-phase current signal. The counter electromotive force measuring portion receives the compensated current signal and a three-phase voltage signal from the motor and calculates the received current signal and the received voltage signal using an analog operation to provide the calculated result. | 2012-10-25 |
20120268053 | ALTERNATING CURRENT MACHINE WITH INCREASED TORQUE ABOVE AND BELOW RATED SPEED FOR HYBRID/ELECTRIC PROPULSION SYSTEMS - The machine in accordance with the present disclosure is an AC machine whose pole numbers can be switched (from pole p | 2012-10-25 |
20120268054 | SERVO MOTOR CONTROL APPARATUS AND CONTROL METHOD - A servo motor control apparatus has a feedback loop. When an oscillation detection signal indicates no detection of oscillation, a parameter operating section gives an updating section an operational instruction to set a control parameter in accordance with a supplied set value. When the oscillation detection signal indicates detection of oscillation, the parameter operating section gives the updating section an operational instruction to set such a control parameter as to narrow a frequency band width of the feedback loop. | 2012-10-25 |
20120268055 | DRIVE DEVICE - According to one embodiment, a drive device comprises a first generating unit which moves in straightly movable manner or rotatable manner and generates precharge pressure, a sliding guide unit which has a sliding guide surface that comes into contact with a sliding surface of the first generating unit and to which the precharge pressure is given, a vibration unit which gives vibration to the first generating unit, and a second generating unit. When the vibration is given to the first generating unit, the second generating unit generates driving force for driving the first generating unit in a predetermined direction so that the driving force is more than frictional force between the sliding surface and the sliding guide surface. When the vibration is not given to the first generating unit, the second generating unit generates the driving force so that the driving force is less than the frictional force. | 2012-10-25 |
20120268056 | INDUCTION MOTOR DRIVER - A switched resonant power converter applies AC to an induction motor. The power converter controls the magnitude and phase of the motor current, and tuning the stator flux accordingly in order to control the motor speed. A preprocessor operates on a speed command signal by getting the user speed command input to produce amplitude and phase-related signals for application to inputs of the power converter control. | 2012-10-25 |
20120268057 | BASIC UNIT OF LITHIUM-ION BATTERY, BATTERY PACK COMPRISING THE SAME, AND CHARGE/DISCHARGE EQUALIZING METHOD THEREOF - A basic unit of lithium-ion battery, including: at least two series-connected lithium-ion cells; at least one lithium-ion cell for balance; controllable switches with the same number as the lithium-ion cells; a drive module for the controllable switches; a voltage detection module for detecting a voltage at two ends of the lithium-ion cells; and a controller. The lithium-ion cell for balance is connected in parallel to the lithium-ion cells. The controllable switches control the turn on/off of the connection in parallel between the lithium-ion cell for balance and each of the lithium-ion cells independently. The drive module for the controllable switches and the voltage detection module are connected to the controller. A battery pack including the basic unit of lithium-ion battery and a method for real-time charge/discharge equalizing of the basic unit of lithium-ion battery are also provided. | 2012-10-25 |
20120268058 | VEHICULAR POWER SUPPLY SYSTEM - A vehicular power supply system is provided, which is equipped with a two-battery power supply system including a lithium-ion battery and a lead battery, and can securely supply the lead battery with power without fail even when the lithium-ion battery is disconnected by a relay. The vehicular power supply system comprises: a lead battery; a lithium-ion battery that can be charged and discharges at a voltage higher than the lead battery's voltage; a step-down DC-DC converter that is connected between the lead battery and the lithium-ion battery and whose output voltage is controllable; a generator connected with the step-down DC-DC converter and the lithium-ion battery; a lithium-ion battery SOC detection means for detecting a state of charge of the lithium-ion battery; a relay for the lithium-ion battery by which the battery is connected to or disconnected from the generator and the step-down DC-DC converter; and a control means, based on the state of charge of the lithium-ion battery, for taking control of switching on and off the relay for the lithium-ion battery. | 2012-10-25 |
20120268059 | CHARGE STOP POINT DETECTING METHOD, CHARGE STOP POINT DETECTING DEVICE, AND A BATTERY PACK - After the highest voltage of a rechargeable battery | 2012-10-25 |
20120268060 | CHARGER AUTOMATICALLY TRACKING AN OPTIMAL CHARGING FREQUENCY FOR SINUSOIDAL WAVE BATTERIES - A device and a method automatically trace and fix a resonance frequency of the batteries for offering an optimal charging frequency to the batteries. The device and method utilize a resonance frequency f | 2012-10-25 |
20120268061 | REAL TIME SYSTEM AND METHOD FOR OPTIMIZING AND MANAGING A LOAD IN AN ELECTRICAL GRID - A system and a method are provided for optimizing and managing a load in an electrical grid. The method includes receiving an event notification associated with a mobile device requiring a charge and determining charging station information of at least one charging station in an electrical grid based on the event notification, the at least one charging station operable to charge the mobile device. The charging station information of the at least one charging station is sent to a user of the mobile device. | 2012-10-25 |
20120268062 | Charging connector mounting structure - A charging connector mounting structure is provided, which prevents entry of water into an outer panel and is highly versatile, includes: an opening provided in an outer panel located on a side face of a vehicle; an outer box mounted on a vehicle interior side of the opening and recessed toward the inside of the opening; a through-hole formed in a recessed portion of the outer box; a connector connecting portion which is inserted in the through-hole and to which a cable plug for charging a battery of the vehicle is connected; and an inner box that is mounted to an inner panel located on the vehicle interior side with respect to the outer panel and that supports the connector connecting portion, wherein the inner box is made of resin. | 2012-10-25 |
20120268063 | CHARGING SYSTEM WITH ADAPTIVE POWER MANAGEMENT - An embodiment of a charger may include an input, at least one switch having a first node coupled to a reference voltage, a current sensor coupled between the input and a second node of the at least one switch, an output coupled to a third node of the at least one switch, and a charge controller coupled to the input to determine an input voltage, to the current sensor to determine an input current and to control inputs of the at least one switch. The at least one switch may be responsive to control signals supplied by the charge controller to the control inputs thereof to control voltage and current at the output of the charger. The charge controller may be responsive to the input voltage and the input current to produce the control signals in a manner that maximizes electrical power drawn at the input. | 2012-10-25 |
20120268064 | Inductively Rechargeable Portable Charger - A portable charger is provided. The portable charging includes a housing and a power source located in the housing so that that the power source can be inductively recharging through the housing. The portable charger also includes a first output connector coupled to the power source for charging a first electronic device, as well as a second output connector coupled to the power source that is different from the first output connector for charging a second electronic device. The first output connector and the second output connector are configured to be at least partially stored within the housing in order to minimize size of the charger. | 2012-10-25 |
20120268065 | PROXIMITY DETECTION CIRCUIT FOR ON-BOARD VEHICLE CHARGER - A proximity detection circuit is operable to detect connection of a cordset to a vehicle charging system or connection of another device to some other electrical circuit where it may be desirable to facilitate detection while a controller or other current drawing source is inactive. | 2012-10-25 |
20120268066 | CHARGE CONTROL DEVICE FOR VEHICLE AND ELECTRIC POWERED VEHICLE PROVIDED WITH SAME - A monitoring unit outputs a first current detection value having a relatively wide measurement range and a relatively short detection cycle and a second current detection value having a relatively high resolution, to a charging ECU. When charging power calculated using the first current detection value exceeds a predetermined limit value, the charging ECU controls a charger to reduce charging power (protection control). Further, the charging ECU controls the charger such that a power storage device attains a predetermined fully charged state based on charging power calculated using the second current detection value (full charge control). | 2012-10-25 |
20120268067 | Charging Station for Electric Vehicles - A system and method of supplying 240 volt charging for an electric vehicle, while also allowing for 120 volt electrical devices to be used in the area, includes a charging station having a 240 volt input, a 240 volt electric vehicle charge plug electrically connected to the 240 volt input, a 240 volt to 120 volt step down transformer, a 240 volt side of the step down transformer electrically connected to the 240 volt input, and a 120 volt power outlet electrically connected to a 120 volt side of the step down transformer. The charging station is electrically connected to a 240 volt circuit that has been converted from a 120 volt circuit that has previously existed in the area. | 2012-10-25 |
20120268068 | BATTERY CONTROL APPARATUS AND METHOD - A battery control apparatus includes an emergency charging unit including an external charging terminal for applying power to a main battery pack, a first voltage measurement unit for measuring the voltage of the external charging terminal, and an emergency charging switch for switching the connection between the external charging terminal and the main battery pack; an auxiliary battery connection unit including an auxiliary battery connection terminal for applying power to the vehicle through a contactor, a second voltage measurement unit for measuring the voltage of the auxiliary battery connection terminal, and an auxiliary battery switch for switching the connection between the auxiliary battery connection terminal and the contactor; and an emergency control unit for switching to an emergency charging mode or an auxiliary connection mode by turning on the emergency charging switch or the auxiliary battery switch during the voltage measurement of the first or second voltage measurement unit. | 2012-10-25 |
20120268069 | METHOD AND SYSTEM FOR SETTING SEQUENTIAL IDENTIFICATION TO MULTI-SLAVE IN BATTERY PACK - Disclosed is a method for setting sequential ID to a multi-slave BMS in a battery pack, the battery pack including N (N: natural number of 2 or more) slave BMSs having sequential physical locations to control a battery module containing at least one battery and a main BMS to control the N slave BMSs. | 2012-10-25 |
20120268070 | APPARATUS AND METHOD FOR CONTROLLING CONNECTION OF BATTERY PACKS - Disclosed is an apparatus for controlling the connection of a plurality of battery packs including a switching unit provided on a charge/discharge path of each battery pack to selectively open and close the charge/discharge path, a first control unit provided for each battery pack to determine the state of charge (SOC) of each battery pack and control the opening/closing of the switching unit, and a second control unit to receive the determined SOC of each battery pack from the first control unit, group battery packs having a predetermined range of SOCs, select a group containing a largest number of battery packs, connect the battery packs of the selected group in parallel, charge or discharge the parallel-connected battery packs so that a difference in SOC between the parallel-connected battery packs and the non-connected battery pack falls within a predetermined range, and connect the non-connected battery pack thereto in parallel. | 2012-10-25 |
20120268071 | MAGNETIC FUEL CELL-BASED BATTERY - A magnetic fuel cell-based battery includes a buffer battery unit; a static magnetic field unit including permanent magnets for amplifying electric energy; a potential to kinetic energy converting unit for generating an electrical resonance effect of oscillating eddy current to replace magnetic field shifting; a magnetic fuel cell stack forming unit including a magnetoresistance element constituted by a Hall element and achieving Hall Effect and forming a cell stack through amplification by a magnetic field effect of the permanent magnets of the static magnetic field unit; and a rectifying and charging unit for rectifying and charging the cell stack formed by the magnetic fuel cell stack forming unit to the buffer battery unit to form a permanent battery. Therefore, the magnetic fuel cell-based battery is a permanent battery formed by combining a buffer battery unit with a magnetic fuel cell stack forming unit that uses permanent magnets as fuel body. | 2012-10-25 |
20120268072 | SEPARATOR AND NONAQUEOUS ELECTROLYTE BATTERY, AND BATTERY PACK, ELECTRONIC APPARATUS, ELECTRIC VEHICLE, ELECTRIC POWER STORAGE DEVICE, AND ELECTRIC POWER SYSTEM - A separator has: a substrate including a porous film; and a surface layer which is provided on at least one surface of the substrate, which includes a vinylidene fluoride-tetrafluoroethylene-hexafluoropropylene copolymer, and which has a plurality of minute pores. | 2012-10-25 |
20120268073 | NONAQUEOUS ELECTROLYTE BATTERY, ROLLED ELECTRODE ASSEMBLY COLLECTOR, LAYER-BUILT ELECTRODE ASSEMBLY COLLECTOR, AND METHOD FOR MANUFACTURING NONAQUEOUS ELECTROLYTE BATTERY COLLECTOR - A nonaqueous electrolyte battery provided with a rolled electrode assembly, in which a positive electrode including a positive electrode active material layer disposed on a positive electrode collector formed from metal foil and a negative electrode including a negative electrode active material layer disposed on a negative electrode collector formed from metal foil are stacked with a separator therebetween and are rolled, and an electrolyte, wherein at least one of the positive electrode collector and the negative electrode collector has a compressed pattern portion which is disposed as a part of the metal foil and which has a thickness smaller than that of the other portion through compression, and the compressed pattern portion from one end parallel to the rolling direction of the metal foil to the other end opposite to the one end is not disposed continuously in the direction orthogonal to the rolling direction of the metal foil. | 2012-10-25 |
20120268074 | POWER SYSTEM FOR HIGH TEMPERATURE APPLICATIONS WITH RECHARGEABLE ENERGY STORAGE - A power system adapted for supplying power in a high temperature environment is disclosed. The power system includes a rechargeable energy storage that is operable in a temperature range of between about seventy degrees Celsius and about two hundred and fifty degrees Celsius coupled to a circuit for at least one of supplying power from the energy storage and charging the energy storage; wherein the energy storage is configured to store between about one one hundredth (0.01) of a joule and about one hundred megajoules of energy, and to provide peak power of between about one one hundredth (0.01) of a watt and about one hundred megawatts, for at least two charge-discharge cycles. Methods of use and fabrication are provided. Embodiments of additional features of the power supply are included. | 2012-10-25 |
20120268075 | Bidirectional current sense - Method and circuits for sensing a bidirectional current without requiring an external sense resistor are disclosed. In a preferred embodiment the invention is applied for fuel gauging of one or more batteries and comprises a charger/active diode, which can source current into the battery and sink current from the battery to supply a mobile electronic device. The invention can be applied to any other application requiring sensing of bidirectional currents. A regulated cascode forces a voltage drop over a power transistor and a sense transistor to be the same. A feedback current is measured by an ADC. The integration of these current measurements over time is equal to the actual charge of the battery. | 2012-10-25 |
20120268076 | Control of battery charging power - In a first embodiment multiple power sources are selected and then combined. Selecting power rather than controlling power may be a cheaper way of controlling the amount of power delivered. In a second embodiment the logic to control power is removed from the battery charger so that the logic may be changed when a different battery is being charged. This permits all types of batteries to be charged if the power source is compatible with the battery. Other embodiments expand the types of power sources that may be used. | 2012-10-25 |
20120268077 | METHOD AND SYSTEM FOR CONTROL OF A VEHICLE ENERGY STORAGE DEVICE - Systems and methods are described for controlling a power transfer rate in to and/or out of an energy storage device on-board a vehicle, such as a locomotive, during a power transfer opportunity. In one example, the method includes adjusting the power transfer rate based on a predetermination of a duration of the power transfer opportunity to match a duration of power transfer to the duration of the opportunity and achieve a specified state of charge. | 2012-10-25 |
20120268078 | DISCHARGING A DC BUS CAPACITOR OF AN ELECTRICAL CONVERTER SYSTEM - A system and method of discharging a bus capacitor of a bidirectional matrix converter of a vehicle are presented here. The method begins by electrically shorting the AC interface of the converter after an AC energy source is disconnected from the AC interface. The method continues by arranging a plurality of switching elements of a second energy conversion module into a discharge configuration to establish an electrical current path from a first terminal of an isolation module, through an inductive element, and to a second terminal of the isolation module. The method also modulates a plurality of switching elements of a first energy conversion module, while maintaining the discharge configuration of the second energy conversion module, to at least partially discharge a DC bus capacitor. | 2012-10-25 |
20120268079 | DISCHARGE CONTROL CIRCUIT - A discharge control circuit that allows an electric charge accumulated in a smoothing capacitor, which is interposed between a main power source that supplies DC power to an electric circuit and the electric circuit, to be discharged when connection between the main power source and the electric circuit is interrupted, includes a series resistor section formed by connecting a first resistor and a second resistor in series with each other and connected in parallel with the smoothing capacitor; and a switch connected in parallel with the first resistor, controlled to a non-conductive state when connection between the main power source and the electric circuit is maintained, and controlled to a conductive state to short-circuit both ends of the first resistor when connection between the main power source and the electric circuit is interrupted. | 2012-10-25 |
20120268080 | AUXILIARY POWER SUPPLY AND USER DEVICE INCLUDING THE AUXILIARY POWER SUPPLY - Auxiliary power supplies include a capacitor (e.g., super capacitor) and a capacitor charging circuit, which is configured to provide a charging current to a first terminal of the capacitor. Enhanced failure detection is provided by a capacitor monitoring circuit, which may be electrically coupled to at least one terminal of the capacitor. The capacitor monitoring circuit is configured to detect when the capacitor is malfunctioning in an open condition as well as when the capacitor is malfunctioning in a short condition. | 2012-10-25 |
20120268081 | DIRECT POWER AND STATOR FLUX VECTOR CONTROL OF A GENERATOR FOR WIND ENERGY CONVERSION SYSTEM - A method for controlling a variable speed wind turbine generator is disclosed. The generator is connected to a power converter comprising switches. The generator comprises a stator and a set of terminals connected to the stator and to the switches of the power converter. The method comprises: determining a stator flux reference value corresponding to a generator power of a desired magnitude, determining an estimated stator flux value corresponding to an actual generator power, determining a difference between the determined stator flux reference value and the estimated stator flux value, and operating said switches in correspondence to the determined stator flux reference value and the estimated stator flux value to adapt at least one stator electrical quantity to obtain said desired generator power magnitude. | 2012-10-25 |
20120268082 | CONTROL DEVICE AND METHOD FOR CONTROLLING A SEPARATELY EXCITED ROTOR WINDING OF A SYNCHRONOUS MACHINE - A control device for a separately excited rotor winding (L | 2012-10-25 |
20120268083 | METHOD FOR UNDERWATER ENVIRONMENTAL ENERGY TRANSFER WITH A LONG LEAD ZIRCONATE TITANATE TRANSDUCER - The invention as disclosed is an underwater based electric energy production method. A cable having a piezoelectric core is attached on one end thereof to a floating buoy and on the other end thereof to an anchor. The system is deployed in the water such that the cable extends vertically through a water column. Movement of the cable due to water current generates electric power that can be harvested and stored. The floating buoy can be at or near the water's surface and the anchor can but need not rest on the sea floor. | 2012-10-25 |
20120268084 | BRIDGELESS POWER FACTOR CORRECTION CIRCUIT - A bridgeless PFC circuit is provided. A low-frequency bridge leg includes a first diode and a second diode connected in series; a three-port network includes a switch tube and an inductor; a lightning and surge protection bridge leg includes a third diode and a fourth diode connected in series; a capacitor is connected between terminals of the low-frequency bridge leg, and between terminals of the lightning and surge protection bridge leg; a common terminal of the first and second diodes is connected to a terminal of an AC power, and a common terminal of the third and fourth diodes is connected to the other terminal; and the three-port network has two ports with the capacitor connected therebetween, and another port connected to the common terminal of the third and fourth diodes. Thus, EMI performance and efficiency can be improved and costs of the whole circuit can be lowered. | 2012-10-25 |
20120268085 | POWER CONVERTING CIRCUIT AND FEEDBACK CONTROL CIRCUIT - A power converting circuit and a feedback control circuit for the power converting circuit are disclosed. The feedback control circuit comprises a feedback controller and a level controlling unit. The feedback controller generates a feedback control signal according to a reference voltage signal and a feedback signal. The level controlling unit receives one of the reference voltage signal and the feedback signal and modules a level of the received signal from a first level to a second level with time according to a level adjusting signal. | 2012-10-25 |
20120268086 | POWER SUPPLY DEVICE - A power supply device includes a power supply unit and a feedback control unit. The power supply unit is configured for generating an electric potential to be provided to a load. The feedback control unit detects the electric potential and adjusts relevant parameters of the electrical potential to achieve predetermined values. The feedback control unit includes a first feedback circuit and a second feedback circuit electrically connected in series. | 2012-10-25 |
20120268087 | IDEALIZED SOLAR PANEL - A solar panel is constructed by electrically connecting one or more banks of solar cells in series, wherein each cell in each bank is electrically connected in series. In some aspects the cells are a quarter of typical full size cells in the direction of current flow. A module senses and controls small signal conduction and total conduction of the panel such that reverse current conduction of a weak or partially shaded cell is prevented, thereby allowing the panel to be constructed without bypass diodes. In some aspects the module prevents damage to the panel by an external inverter's maximum power point experiments; in other aspects the module itself provides maximum power point control. | 2012-10-25 |
20120268088 | DC TO DC BUCK CONVERTING CONTROLLER - A constant on-time period of a DC to DC buck converting controller is adjusted according to a level of a preset output voltage. Therefore, the DC to DC buck converting controller of the present invention is suitable for any applications with different requests of output voltages or different operating mode. | 2012-10-25 |
20120268089 | LEVEL SHIFTER, CONTROLLER, AND DC-TO-DC CONVERTER - According to one embodiment, a level shifter includes a current generator, a current switch, and a protection circuit. The current generator is connected between a first high potential terminal and a first low potential terminal and configured to generate a first current at a first output line. The current switch is connected between a second high potential terminal and a second low potential terminal. The current switch is configured to receive the first current with a higher current supply capacity than the current generator and pass the first current or cut off the first current in accordance with an input signal. The protection circuit is connected to the first output line between the current generator and the current switch. The protection circuit is configured to limit an electric potential of the first output line. | 2012-10-25 |
20120268090 | SWITCHING POWER SUPPLY DEVICE - A switching power supply device of the present invention switches an application of a voltage to a coil. The switching power supply device includes: a switching element that (i) has a normally-on type first switching element and a normally-off type second switching element which are cascode-connected to each other at and (ii) switches the application of the voltage to the coil; and a control circuit that (i) detects a voltage at a cascode connecting point and (ii) controls turning-on of the switching element in accordance with the detected voltage. | 2012-10-25 |
20120268091 | SWITCHING CIRCUIT DEVICE AND POWER SUPPLY DEVICE HAVING SAME - A switching circuit device provided between a first node and a second node within a power supply circuit, an inductor being coupled to the first or second node, the switching circuit device has: a first transistor that is provided between the first node and the second node and has a first gate width; a second transistor that is provided in parallel with the first transistor between the first node and the second node and has a second gate width larger than the first gate width; and a driving signal generation circuit, which, in response to a control signal generated according to an output voltage of the power supply circuit, outputs a first driving signal which drives the first transistor on and off, and a second driving signal which drives the second transistor on and off, with different timings between the first driving signal output and the second driving signal output. | 2012-10-25 |
20120268092 | CLAMPING CIRCUIT TO A REFERENCE VOLTAGE FOR ULTRASOUND APPLICATIONS - A clamping circuit includes a clamping core connected to an output terminal and having a central node connected to a voltage reference and at least one first and one second clamp transistor, connected to the central node and having respective control terminals, the clamping core being also connected at the input to a low voltage input driver block. The clamping core includes a first switching off transistor connected to the output terminal and to the first clamp transistor, as well as a second switching off transistor connected to the output terminal and to the second clamp transistor. | 2012-10-25 |
20120268093 | DC-DC CONVERTER CONTROL METHOD AND DC-DC CONVERTER CONTROL CIRCUIT - The transient response of an output voltage to a load fluctuation is improved, in a switching power source that carries out a PWM control. In a DC-DC converter wherein a switching element of an output stage is controlled by a drive signal, whose pulse width is set at a minimum value, output from a PWM signal generating circuit based on an output voltage output from an error amplifier in accordance with the difference between a feedback voltage in accordance with an output voltage of the output stage and a reference voltage, there is provided a minimum pulse width detector circuit that supplies a current to a phase compensation capacitor when the pulse width of the drive signal is at the minimum value, thus preventing the output voltage from dropping below a value corresponding to the minimum value when the load fluctuates, and improving transient response characteristics of the output voltage. | 2012-10-25 |
20120268094 | Analog current limit adjustment for linear and switching regulators - Circuits and methods for dynamic adjustment of the current limit of a power management unit to avoid unwanted automatic interruption of the power flow have been disclosed. The invention can be applied to switched and linear DC-to-DC converters. The power management unit is automatically adjusted to the output resistance of a power source (including interconnect resistance). The invention maximizes the time and hence the power transferred from a power management unit to the system (including the battery, in case of battery operated systems). The input current is reduced, thus increasing the input voltage in case of a high voltage drop across the internal resistance including interconnections between power source and power management unit. | 2012-10-25 |
20120268095 | DC-DC VOLTAGE CONVERTER SYSTEM WITH A HIGH-EFFICIENCY PULSE-SKIP OPERATIONAL MODE - DC-DC voltage converter systems are provided in which a switching voltage converter is arranged with an inductor to switch first and second currents with duty cycles D and D′ determined by an error voltage V | 2012-10-25 |
20120268096 | VOLTAGE BOOSTER SYSTEM AND SEMICONDUCTOR CHIP - A voltage booster system of a charge pump type includes a regulator for outputting a constant voltage and a charge pump circuit for boosting a voltage of an output terminal of the regulator. The regulator includes a differential amplifier unit for inputting a reference voltage and a feedback voltage according to the voltage of the output terminal, and an output stage portion including an PN connection element having one end portion connected to an application terminal of a power source voltage and another end portion connected to the output terminal. The PN connection element is configured to be controlled according to an output signal of the differential amplifier unit. The charge pump circuit includes a first capacitor to which the voltage of the output terminal is applied to be charged; a second capacitor; a third capacitor; a first switching section; and a second switching section. | 2012-10-25 |
20120268097 | DC-TO-DC CONVERSION APPARATUS - A direct current (DC)-to-DC conversion apparatus is provided. The provided DC-to-DC conversion apparatus is composed of two boost circuits, in which inputs of both boost circuits are connected in parallel, and outputs of both boost circuits are connected in series. Accordingly, when the provided DC-to-DC conversion apparatus is operated, the DC input power would be firstly sampled and determined, and then the operations of the first and the second switch devices disposed therein would be controlled in response to the sampled-determined result, such that both boost circuits would be respectively operated in different input conditions, for example, the input is normally-connected or the input is reverse-connected. Accordingly, regardless of the input of normal connection or the input of reverse connection, the provided DC-to-DC conversion apparatus can perform the function of DC-to-DC conversion, thereby enabling the applied product to be normally operated even the input is reverse-connected. | 2012-10-25 |
20120268098 | POWER CONVERTER WITH HOLD UP - A power converter providing required hold up for a primary converter, particularly a cycloconverter, without the required hold up capacity by an auxiliary converter including storage capacitors having the requisite capacity. The auxiliary converter may be isolated from the primary converter during normal operation and switched in during power supply discontinuities. The storage capacitors may be charged via a voltage step up circuit to achieve improved charge utilization. The storage capacitors may be charged via a charge path independent of the auxiliary converter output path so that the storage capacitor charging rate may be set independently. | 2012-10-25 |
20120268099 | HVDC POWER TRANSMISSION WITH CABLE FAULT RIDE-THROUGH CAPABILITY - A high voltage direct current (HVDC) power transmission system includes a cable fault ride-through system. The cable fault ride-through system is configured to ensure the HVDC power transmission system remains operational via an earth path between the power source end and the load end during a transmission cable fault, even in the absence of a neutral bus and/or dc circuit breakers. | 2012-10-25 |
20120268100 | ERROR COMPENSATION FOR CURRENT TRANSFORMER SENSORS - Phase angle error and ratio error correction is provided in a current transformer by a bucking voltage opposite in phase to the voltage drop across the burden resistor and inherent winding resistance. | 2012-10-25 |
20120268101 | OSCILLOSCOPE WITH INTEGRATED GENERATOR AND INTERNAL TRIGGER - An apparatus, includes an oscilloscope and a waveform generator. The waveform generator is integrated in a common housing with the oscilloscope, and configured to provide a stimulus signal as an output of the apparatus and to provide a trigger signal that is connected internally to the oscilloscope for triggering the oscilloscope. | 2012-10-25 |
20120268102 | SWITCHING APPARATUS AND TEST APPARATUS - To restrict a bowing amount of a piezoelectric actuator, provided is a switching apparatus comprising a contact point section including a first contact point; and an actuator that moves a second contact point to contact or move away from the first contact point. The actuator includes a first piezoelectric film that expands and contracts according to a drive voltage to change a bowing amount of the actuator, and a second piezoelectric film that is provided in parallel with the first piezoelectric film and restricts bowing of the actuator when the drive voltage is not being supplied to the first piezoelectric film. | 2012-10-25 |
20120268103 | DISPLAY FOR HAND-HELD ELECTRONICS - The invention disclosed here is a display system for managing power and security for a plurality of hand-held electronic devices sold to consumers in a retail location. The display includes features that allow power to be supplied to individual devices and security sensors without continuous hard wiring or multi-conductor retractor cables. The display also allows for individual security alarms to be triggered when a theft occurs. Security alarm conditions are preferably triggered via wireless signals. | 2012-10-25 |
20120268104 | SIGNAL DETECTION APPARATUS FOR SAS DEVICES - A signal detection apparatus for a serial attached SCSI (SAS) device includes an SAS female connector to be connected to a SAS device, an SAS male connector to be connected to a system, and first to fourth pairs of subminiature version A (SMA) connectors. When the first pair of SMA connectors is connected to an oscillograph to detect a pair of output signals from the SAS device, the second and third pairs of SMA connectors connect the SAS device with the system. When the second pair of SMA connector is connected to the oscillograph to detect another pair of output signals from the SAS device, the first and fourth pairs of SMA connectors connect the SAS device with the system. | 2012-10-25 |
20120268105 | APPARATUS FOR ANALOG-TO-DIGITAL CONVERSION WITH A HIGH EFFECTIVE-SAMPLE-RATE ON THE LEADING EDGE OF A SIGNAL PULSE - A method and electronic device for outputting time values and energy of an analog input signal by dynamically determining a plurality of threshold values, comparing, using a plurality of comparator circuits, the plurality of threshold values against the analog input signal, outputting, using at least one time to digital conversion circuit connected to each of the plurality of comparator circuits, a plurality of time values, each time value output when the analog input signal meets or exceeds a threshold value of the threshold values, filtering the analog input signal, performing, using an analog-to-digital conversion circuit, analog-to-digital conversion of the filtered analog input signal to generate a digital signal, and calculating, in response to receiving a trigger signal, an energy of the digital signal. | 2012-10-25 |
20120268106 | SMART CURRENT TRANSFORMERS - According to one aspect, embodiments of the invention provide a current monitoring device comprising a current transformer configured to be removeably coupled to a power line and to generate a reference signal having a level related to a current level of the power line, a sensor circuit connected to the current transformer and configured to be removeably coupled to a communications bus and to convert the reference signal to a digital reference signal and provide a signal indicative of the current level to the communication bus, and a housing containing the sensor circuit and the current transformer. | 2012-10-25 |
20120268107 | SAFETY CIRCUIT ARRANGEMENT AND METHOD FOR THE FAIL-SAFE MONITORING OF A MOVEMENT VARIABLE - A safety circuit arrangement for the failsafe monitoring of a movement variable of a moving machine part has a signal input for supplying an encoder signal, with the encoder signal being representative of the movement variable to be monitored. The arrangement also has a reference signal path for supplying a reference signal, a tap connected to the signal input and to the reference signal path in order to provide a superposition signal by superposing the reference signal on the encoder signal, and a measuring unit which is connected to the tap and is designed to detect whether the superposition signal reaches at least one predefined signal level or is within a predefined signal level range. | 2012-10-25 |
20120268108 | CURRENT SENSOR OPERATING IN ACCORDANCE WITH THE PRINCIPLE OF COMPENSATION - An exemplary current sensor operating in accordance with the principle of compensation includes a primary winding creating a magnetic field based on a current to be measured, a secondary winding generating a magnetic field compensating the primary winding based on a compensation current. The current sensor also includes a magnetic core, a terminating resistor connected in series to the secondary winding, and sensor means. A booster circuit is connected downstream of the sensor means and feeds the compensation current to the secondary winding via the terminating resistor. The booster circuit includes a switched mode amplifier with a pulse width and density modulator that operates based on pulse width and density modulation, turning the compensation current into a pulse width and density modulated current. The switched mode amplifier having a switching frequency that is high at when the compensation current is small and low when the compensation current is high. | 2012-10-25 |
20120268109 | METHOD AND ARRANGEMENT FOR SYNCHRONIZING A SEGMENT COUNTER WITH A FINE POSITION SENSOR - A method and an arrangement for performing the method for the error-free conversion of the counting values of a segment counter including Wiegand sensors and the position values of a fine position sensor into a total position value using the last magnetization direction of the Wiegand wire of a segment counter as part of the information for an absolute synchronization of counting and position values. | 2012-10-25 |
20120268110 | INDUCTIVE PROXIMITY OR DISTANCE SENSOR - The invention relates, in particular, to an inductive proximity or distance sensor. The invention proposes that a core | 2012-10-25 |
20120268111 | ROTATION ANGLE SENSOR - A rotation angle sensor includes a housing, a detected object, a magnetism generation section, a housing cover, a circuit substrate, a sensing IC, and a resin body. The sensing IC includes a magnetism detection element, a molded body, and leads. The magnetism detection element outputs a signal in accordance with a change in a magnetic field due to a rotation of the detected object. The molded body covers the magnetism detection element. One end portion of each lead is electrically coupled with the magnetism detection element and the other end portion of each lead protrudes from the molded body and is electrically coupled with the circuit substrate. The resin body seals a portion of the molded body located between the magnetism detection element and the housing cover, the leads, and the circuit substrate. | 2012-10-25 |
20120268112 | MAGNETIC SENSOR AND A METHOD AND DEVICE FOR MAPPING THE MAGNETIC FIELD OR MAGNETIC FIELD SENSITIVITY OF A RECORDING HEAD - The invention provides a method and apparatus for scanning a read/write head of a hard disk drive during manufacture. The method comprises: providing a magnetic sensor; moving the magnetic sensor relative to and in close proximity to the read/write head under test; obtaining measurements from the head under test or the sensor, representing a two-dimensional magnetic map; processing the map to obtain an accurate map of the head sensitivity of the head under test from which the key performance characteristics of the head can be obtained. | 2012-10-25 |
20120268113 | THREE-AXIS MAGNETIC SENSOR AND METHOD FOR MANUFACTURING THE SAME - In a three-axis magnetic sensor, a plurality of magnetoresistive effect element bars are connected in series by means of bias magnets formed on a flat surface parallel to the flat surface of the substrate to constitute magnetoresistive effect elements. The sensitivity direction of magnetization is a direction perpendicular to the longitudinal direction of each of the magnetoresistive effect element bars. Magnetoresistive effect elements forming X-axis and Y-axis sensors have magnetization directions that are orthogonal to each other. Magnetoresistive effect elements of the Z-axis sensor are formed on a tilted surface substrate in such a way that the magnetization direction is inside the tilted surface. The sensitivity direction of the Z-axis sensor is perpendicular to the longitudinal direction of the magnetoresistive effect element bar. | 2012-10-25 |
20120268114 | CURRENT SENSOR WITH A MAGNETIC CORE - A current sensor is disclosed, with a ring-shaped magnetic core, the core enclosing the primary conductor with the current to be measured, the core having an air-gap containing a sensor element for measuring the magnetic core induction, whereby the cross-sectional area of the air-gap is larger than the cross-sectional area of the core. | 2012-10-25 |
20120268115 | METHOD FOR ANALYZING A MULTI-PHASE FLUID - A magnetic resonance based apparatus capable of measuring, without using time-of-flight measurements, flow regimes of multi-phase fluids in a pipe, comprises a magnetic resonance module through which the fluid phases flow, wherein the magnetic resonance module includes a radiofrequency coil for transmitting and detecting a signal and means for generating inside the module a homogenous constant magnetic field Bx that is thermally compensated and a transverse magnetic field gradient Gx that is superposed on Bx; and at least one pre-polarization module through which the fluid phases flow before entering the magnetic resonance module | 2012-10-25 |
20120268116 | Magnetic Resonance Signal Detection Using Remotely Positioned Receive Coils - The receive coil arrangement includes an inner coil adjacent the part to be imaged so as to maximize the received MR signal and an outer coil, which may be the built in body coil of the magnet, connected by cable to the signal processing system. Both the coils are individually tuned to the common resonant frequency and the receive coil include an arrangement to halt current flow therein during the transmit stage. The first coil has no cable and is arranged to communicate the MR signal therein to the signal processing system through the outer coil by inducing the MR signal onto the outer coil. Despite inherent losses by interfering with the tuning of the loops and in the inductive coupling this magnifies the MR signal and makes the first coil wireless. Arrangements are provided for generating from the output of the second coil separate signals for separate channels of the signal processing unit. | 2012-10-25 |
20120268117 | APPARATUS AND METHOD FOR DETECTING THE PRESENCE OF A PARTICLE OF A FERROMAGNETIC METAL IN A PACKAGING OF A PARAMAGNETIC MATERIAL - It is disclosed a method for checking a packaged product in order to know if it is free of particles of a ferromagnetic metal or contains a particle of a ferromagnetic metal. The packaged product comprises a packaging comprising a paramagnetic and/or diamagnetic metal. The method comprises: providing a static magnetic field B | 2012-10-25 |
20120268118 | METHOD FOR CAPTURING MR IMAGE DATA AND CORRESPONDING COMBINED MR/ET FACILITY - MR image data relating to a volume section of an examination object is determined. Image data relating to this volume section is also captured by way of a true-to-original tomographic method. The MR image data is compared with the image data. Depending on the results of this comparison, either the MR image data is corrected such that the MR image data matches the image data as closely as possible, or parameters that are used during the capture of the MR image data are modified such that, when the MR image data of the predefined volume section is captured again using the modified parameters, the newly captured MR image data matches the image data as closely as possible. | 2012-10-25 |
20120268119 | MAGNETIC FIELD ADJUSTMENT METHOD FOR MRI DEVICE - An eigen-mode to be corrected is selected in accordance with an attainable magnetic field accuracy (homogeneity) and appropriateness of arranged volume of the iron pieces. Because the adjustment can be made with the attainable magnetic field accuracy (homogeneity) being grasped, an erroneous adjustment can be grasped, and the adjustment is automatically done during repeated adjustment. When the magnetic field adjustment is carried out with support by the method of the present invention according to the first and second embodiments or an apparatus including this method therein, the magnetic field adjustment can be surely completed. As a result, the apparatus with a high accuracy can be provided. In addition, there is an advantageous effect of earlier detection of a poor magnet by checking the attainable homogeneity. They are applicable to magnet devices for the horizontal magnetic field type, being an open type MRI, and vertical magnetic field type MRI. | 2012-10-25 |
20120268120 | METHOD FOR ERROR COMPENSATED CHEMICAL SPECIES SIGNAL SEPARATION WITH MAGNETIC RESONANCE IMAGING - A method for producing an image of a subject with a magnetic resonance imaging (“MRI”) system, in which relative signal contributions from a plurality of different chemical species are separated, is provided. A plurality of different echo signals occurring at a respective plurality of different echo times are acquired with the MRI system and a signal model that accounts for relative signal components for each of a plurality of different chemical species is formed for each echo signal. Those echo signals containing errors, such as phase errors, magnitude errors, or errors indicative of a corrupted echo signal, are identified. The relative signal components for each of the plurality of different chemical species are then determined by fitting the echo signals with the signal model. Particularly, those echo signals identified as containing errors are fitted to the signal models in a manner that discards the error-containing information. | 2012-10-25 |
20120268121 | METHOD FOR R*2 QUANTIFICATION WITH MAGNETIC RESONANCE IMAGING - A method for measuring transverse relaxation rate, R | 2012-10-25 |
20120268122 | SYSTEM AND METHOD FOR QUANTIFYING MR DATA ACQUIRED DURING A UTE SEQUENCE - A system and method for quantifying MR data acquired during a UTE sequence include a computer programmed to execute an MR scan comprising an application of an RF pulse, an echo time (TE) period, and an application of a data acquisition gradient pulse, wherein the TE period begins after the RF pulse and ends before the data acquisition gradient pulse. MR data of an imaging object are acquired during application of the data acquisition gradient pulse, and a phase image is reconstructed based on the acquired MR data. The computer is also programmed to calculate a first contribution of phase to the phase image during the application of the RF pulse, to calculate a second contribution of phase to the phase image by the application of the data acquisition gradient pulse, and to generate a frequency map based on the phase image and based on the first and second contributions of phase. | 2012-10-25 |
20120268123 | RELAXOMETRY QUANTIFICATION SELF-JUSTIFICATION FITTING - Apparatus, methods, and other embodiments associated with self-justification fitting for magnetic resonance imaging (MRI) relaxation parameter quantification are described. One example nuclear magnetic resonance (NMR) apparatus includes a self-justification fitting logic configured to selectively include and exclude data points from a set of data points associated with NMR signals based, at least in part, on their impact on a fit attribute (e.g., standard deviation). In one embodiment, the self-justification is configured to select a subset of data points from the set of data points as a function of values for a fit attribute computed from fitting at least two different subsets of data points from the set of data points to a known NMR signal evolution. | 2012-10-25 |
20120268124 | Method for quasi-continous dynamic motion correciton in magnetic resonance measurements - A method of MR imaging and spectroscopy reduces artifacts occurring due to the motion of an object to be represented, wherein the object position is determined quasi-continuously during the runtime of the MR acquisition, which includes one or more partial acquisitions (TA), and wherein motion correction is performed, which comprises dynamic adaptation of the frequency and phase settings of the RF system of the tomograph and of the orientation and amplitudes of the gradients during the runtime of the MR acquisition according to the current object position. The motion correction is thereby applied during a signal weighting period, during a signal read-out period, or between and/or during the two stated periods and the adaptations for motion correction are performed without interrupting or slowing the temporal progression of the MR acquisition. In this way, artifacts due to motion of the object to be represented can be further reduced. | 2012-10-25 |
20120268125 | DYNAMIC ADAPTATION OF A DEPHASING GRADIENT PAIR - In a method for optimization of a flow coding with switching of an additional bipolar dephasing gradient pair, used in a magnetic resonance (MR) phase contrast angiography, the strength of the flow coding is selected depending on the flow velocity in the vessels that should be depicted. MR signals of an examination region are acquired with continuously running overview measurements, with an operator-selected flow coding strength. After the selected flow coding strength is adopted automatically for the next measurement of the continuously running overview measurements, and two partial measurements with different flow codings are implemented for each selected strength and a phase difference image from the two partial measurements is calculated and depicted in real time, and the selected flow coding strength is automatically adopted for the MR phase contrast angiography. | 2012-10-25 |
20120268126 | INCREASING THE PERFUSION SIGNAL TO NOISE RATIO (SNR) IN VELOCITY SELECTIVE ARTERIAL SPIN LABELING (VSASL) IN MAGNETIC RESONANCE IMAGING - Techniques, systems computer program products are disclosed increasing tagging efficiency in velocity selective arterial spin labeling using multiple velocity selective saturation modules. In one aspect, a magnetic resonance imaging method for tagging arterial blood includes using two or more velocity selective saturation (VSS) modules to tag arterial blood. The tagged arterial blood is imaged. | 2012-10-25 |
20120268127 | System and Method for Spatially Encoding Nuclear Magnetic Resonance Signals Using Magnetic Susceptibility Effects - A device for spatially encoding nuclear magnetic resonance signals is provided. The device includes a plurality of spatial-encoding elements configured to produce a spatial-encoding magnetic field in the presence of an external magnetic field, such as the main magnetic field of a magnetic resonance imaging (“MRI”) system. The spatial-encoding elements include paramagnetic and diamagnetic spatial-encoding elements. The device further includes a support configured to hold the plurality of spatial-encoding elements in a fixed arrangement. By adjusting the orientation of the device, the spatial-encoding elements are moved relative to each other and thereby produce a plurality of different spatial-encoding magnetic fields. These spatial-encoding magnetic fields are used to spatially encode nuclear magnetic resonance signals emanating from spins in a volume-of-interest adjacent the device. An image reconstruction method for reconstructing images from signals spatially-encoded with the device is also provided. | 2012-10-25 |
20120268128 | Method for Principal Frequency Magnetic Resonance Elastography Inversion - A method for calculating a mechanical property of a material using a magnetic resonance imaging (“MRI”) system is provided. The method is particularly robust to image data having low signal-to-noise ratio (“SNR”). An MRI system is used to acquire magnetic resonance elastography (“MRE”) data from a subject containing the material. Exemplary materials include lung tissue. Images are reconstructed from the MRE data and used to produce a wave image from which a spatial frequency spectrum is produced. A principal frequency of the spatial frequency spectrum is produced and used to calculate a mechanical property of the material. For example, shear stiffness may be calculated. | 2012-10-25 |
20120268129 | TRANSMITTING DEVICE FOR DRIVING A HIGH-FREQUENCY ANTENNA OF A MAGNETIC-RESONANCE DEVICE - A transmitting device for driving a high-frequency antenna of a magnetic-resonance device using a target signal capable of being amplitude-modulated is provided. A number N of similarly embodied amplifier modules, where N is at least two, a signal-conditioning device, and a combining device for combining output signals of the amplifier modules into the target signal are provided. The signal-conditioning device generates N drive signals having a predetermined pulse frequency that consist of pulses having a length dependent on a desired target amplitude and having a phase corresponding to the desired target phase and a frequency corresponding to the desired target frequency. The pulses of the individual drive signals are mutually offset in time by, in each case, 1/N of a pulse period corresponding to the pulse frequency. Each drive signal is fed to an amplifier module. | 2012-10-25 |
20120268130 | METHOD AND DEVICE FOR DETERMINING A MAGNETIC RESONANCE SYSTEM ACTIVATION SEQUENCE - A method and control a sequence determination device for determining a magnetic resonance system-activation sequence are provided. The magnetic resonance system-activation sequence includes a multichannel pulse having a plurality of individual HF pulses to be emitted in a parallel manner by the magnetic resonance system by way of different independent high-frequency transmit channels. A multichannel pulse is calculated based on a predefined MR excitation quality using an HF pulse optimization method, and an HF pulse length is optimized with respect to an HF energy parameter. | 2012-10-25 |
20120268131 | MEASURING APPARATUS, CHARGING APPARATUS AND A MAGNETIC RESONANCE APPARATUS HAVING A MEASURING APPARATUS AND A CHARGING METHOD HEREFOR - A measuring apparatus for a magnetic resonance apparatus is proposed. The measuring apparatus has a charging apparatus and a mobile sensor unit for detecting a physiological signal of a patient. The mobile sensor unit includes a sensor element and an energy storage element which supplies electrical energy to the sensor element in an operating mode. The charging apparatus in a charging process increases a charging state of the energy storage element of the mobile sensor unit so that the mobile sensor unit can be coupled to the charging apparatus which has an energy buffering unit. | 2012-10-25 |
20120268132 | Magnetic Resonance Signal Detection Using Remotely Positioned Receive Coils - The receive coil arrangement includes an inner local volume coil adjacent the part to be imaged so as to maximize the received MR signal and an outer coil, which may be the built in body coil of the magnet, connected by cable to the signal processing system. Both the coils are individually tuned to the common resonant frequency and the local volume coil include an arrangement to halt current flow therein during the transmit stage. The local volume coil has no cable and is arranged to communicate the MR signal therein to the signal processing system through the outer coil by inductive coupling to the outer coil. Despite inherent losses by interfering with the tuning of the loops and in the inductive coupling this magnifies the MR signal and makes the local volume coil wireless. | 2012-10-25 |
20120268133 | Modular multi-channel coil array for an MRI having decoupling of next but one neighbors - A multi-channel coil array for use as a transceiver in magnetic resonance imaging (MRI) has a plurality of radio frequency (RF) coils disposed next to one another, devices for electromagnetically decoupling the RF coils and coil elements which are applied onto a planar carrier element ( | 2012-10-25 |
20120268134 | ELECTRO-CHEMICAL SENSOR - An electrochemical sensor for the presence or concentration of an analyte has at least one electrode and at least one electrochemically active species able to undergo electrochemical reaction in response to electrical potential applied to the electrode, where the said reaction is modified by the presence of the analyte. This sensor has the novel characteristic that at least one said electrochemically active species is encapsulated within polymer particles. These particles are preferably formed from an amorphous polymer with a glass transition temperature above the temperature of the fluid to which the sensor is exposed. The encapsulating polymer protects the analyte species from degradation, but a small analyte such as a hydrogen or bisulfide ion can pass through the polymer and undergo reaction at the active species. | 2012-10-25 |
20120268135 | Borehole to Surface Electromagnetic Transmitter - An electromagnetic energy transmitter is provided for borehole to surface electromagnetic (BSEM) surveying. The transmitter is lowered into a well borehole to a desired location in a well borehole to emit electromagnetic energy for the surveys. The transmitter affords more accurate measurements of its position in the well borehole. The transmitter also senses pressure and temperature conditions at its borehole location to provide indications of detected potential problems in the well from the survey or other sources, and to reduce risks and enhance safety and quality of the operations. | 2012-10-25 |
20120268136 | Electrical Test Apparatus - Broadly, the present invention is an electrical test apparatus that is adapted to be removably engaged and in electrical communication with an electrical power terminal, the electrical test apparatus includes analytical circuitry that is operative in each of a plurality of modes to monitor the electrical power terminal and produce a plurality of event marker signals. Further included is a criterion circuitry that is operative in each of the plurality of modes to receive each of the plurality of event marker signals for a comparison with a selected value for each of the plurality of modes, wherein the criterion circuitry outputs a plurality of perceptive signals each corresponding to one of the plurality of modes. In addition, a structure is included for producing an associated perceptible output in response to each of the plurality of perceptive signals. | 2012-10-25 |
20120268137 | CONNECTOR CONNECTION TERMINAL AND CONNECTOR USING THE SAME - The present invention is to provide a connector connection terminal capable of reducing manufacturing cost of a connector and a probe, and preventing erroneous contact between the connection terminal and a continuity check pin at the time of a continuity check, and a connector using the same. Therefore, a connector connection terminal includes a fixed piece to be fixed to a base of the connector, a coupling portion extending upward from the fixed piece, and a movable piece extending from the coupling portion in the direction facing the fixed piece, and the connector connection terminal arranged side by side in the base further includes an extending portion for the continuity check provided in an end of the fixed piece, and a projection for the continuity check provided at an upper side of the movable piece or the coupling portion. | 2012-10-25 |
20120268138 | TEST APPARATUS - To detect whether energy accumulated in an inductive load section has been discharged. Provided is a test apparatus that tests a device under test, comprising a power supply section that generates a power supply voltage to be supplied to the device under test; an inductive load section that is provided in a path between the power supply section and the device under test; a housing section that houses a substrate that includes at least the inductive load section; and a lock maintaining section that keeps an opening/closing section, which allows an operator to access the substrate within the housing section, in a locked state when a voltage at a predetermined position on the substrate is greater than a set voltage. | 2012-10-25 |
20120268139 | DEVICE FOR DETECTING A LEVEL - In order to provide a device ( | 2012-10-25 |
20120268140 | Signal Acquisition System Having a Compensation Digital Filter - A signal acquisition system has a signal acquisition probe having probe tip circuitry coupled to a resistive center conductor signal cable. The resistive center conductor signal cable is coupled to a compensation system in a signal processing instrument via an input node and input circuitry in the signal processing instrument. The signal acquisition probe and the signal processing instrument have mismatched time constants at the input node with the compensation system having an input amplifier with feedback loop circuitry and a compensation digital filter providing pole-zero pairs for maintaining flatness over the signal acquisition system frequency bandwidth. | 2012-10-25 |
20120268141 | METHOD AND ARRANGEMENT FOR MEASURING THE SIGNAL DELAY BETWEEN A TRANSMITTER AND A RECEIVER - A method for determining a delay τ of a signal between a UWB transmit unit and a FSCW receiver unit includes: generating a pulsed transmit signal S | 2012-10-25 |
20120268142 | CAPACITIVE PANEL SCANNING WITH REDUCED NUMBER OF SENSING CIRCUITS - Embodiments described herein provide capacitive sensor devices and methods for operating capacitive sensor devices. A first number of electrodes on the capacitive sensor array is activated. A signal is received from each of the first number of electrodes with a second number of receiver circuits on a controller associated with the capacitive sensor array. The first number is greater than the second number. It is determined if an object is proximate the capacitive sensor array based on the signals received from the first number of electrodes. | 2012-10-25 |
20120268143 | CAPACITIVE SENSING PATTERN - A capacitive input device includes a plurality of receiver sensor electrodes oriented substantially parallel to a first axis proximate to a sensing region of the capacitive input device. The capacitive sensing device also includes a plurality of transmitter sensor electrodes oriented substantially parallel to a second axis proximate to the sensing region and configured to be capacitively coupled with the plurality of receiver sensor electrodes. The at least one receiver sensor electrode of the plurality of receiver sensor electrodes is disposed in a configuration forming multiple crossings with a line that is parallel to the second axis, the multiple crossings occurring proximate to the sensing region. | 2012-10-25 |