18th week of 2011 patent applcation highlights part 23 |
Patent application number | Title | Published |
20110101877 | LED DRIVER WITH OPEN LOOP DIMMING CONTROL - An LED driver with open loop dimming including a full wave rectifier circuit, a DC/DC converter, and an oscillator circuit. The rectifier is configured to receive an input voltage in the form of an AC conductive angle modulated voltage and to provide a rectified voltage. The DC/DC converter converts the rectified voltage to an output voltage and an output current, where the output current has a magnitude which varies proportionately with a square of a quadratic mean of the input voltage. The oscillator circuit controls switching of the DC/DC converter with constant frequency and constant duty cycle. The DC/DC converter may be a flyback converter and may include a transformer operated in DCM. The driver may include output voltage and/or output current limit. The output current may be limited when the input voltage is within normal operating range of an AC line voltage from which the input voltage is derived. | 2011-05-05 |
20110101878 | DRIVING CIRCUIT FOR DRIVING A LOAD - A driving circuit comprises a first and a second switching circuit coupled in parallel to a node which is adapted to be coupled to a load, a first and a second detecting circuit, and a synchronizing circuit having an input coupled to the first and second detecting circuits and having an output coupled to the first and second switching circuits. The first detecting circuit detects a current associated with the first switching circuit and the second detecting circuit detects a current associated with the second switching circuit. The synchronizing circuit operates the first and second switching circuits to switch synchronously to a conducting state, and operates the first and second switching circuits to switch synchronously to a non-conducting state in the event that one of the first and second detecting circuits detects a current equal to or higher than a threshold value. | 2011-05-05 |
20110101879 | ELECTRONIC BALLAST CIRCUIT FOR LAMPS - An electronic ballast circuit includes a power factor correction circuit, a control and amplifier circuit, a ballast controller circuit and a ballast driver circuit. The ballast driver circuit includes a resonant circuit that connects to a lamp and a strike voltage limiter circuit that regulates the behavior of the resonant circuit. An overcurrent sensor circuit may be included to indirectly the control the ballast controller circuit via the control and amplifier circuit. The strike voltage limiter circuit uses varistors to change the resonant frequency of the resonant circuit to limit the voltage to the lamp. | 2011-05-05 |
20110101880 | Driver circuit with an increased power factor - According to one exemplary embodiment, driver circuit coupled between an AC line and a load includes a first semiconductor switch interposed between a bus voltage and a resonant circuit and a second semiconductor switch interposed between the resonant circuit and a ground, where the resonant circuit drives the load. In the driver circuit, the bus voltage has a shape substantially corresponding to a shape of a rectified AC line voltage, thereby increasing a power factor of the driver circuit. The driver circuit can further include a full-bridge rectifier disposed between the resonant circuit and the load. The load can include at least one LED. | 2011-05-05 |
20110101881 | LIGHT EMITTING APPARATUS, METHOD FOR DRIVING THE LIGHT EMITTING APPARATUS, AND DISPLAY APPARATUS INCLUDING THE LIGHT EMITTING APPARATUS - A light emitting apparatus comprises a light emitting section for emitting light, a color of the light being changed with a value of a driving current, and a driving section for driving the light emitting section so that the light emitting section emits light having a desired color and a desired intensity, by generating the driving current based on a signal designating the desired color and a signal designating the desired intensity and by applying the driving current to the light emitting section. | 2011-05-05 |
20110101882 | Method For Transmitting Control Information From A Control Device To A Lamp Unit As Well As A Corresponding Illuminating System, Lamp Unit And Control Device - A method is provided for driving at least one lamp unit, which is connected to an AC voltage power supply system. The method comprises modulating a control information item for the operation of the lamp unit onto the supplied AC voltage, decoding of the modulation received on the lamp unit side for reading the control information item and driving the light-emitting device in accordance with the control information item. Provision is made for a shunt to be produced in the line used for transmitting the control information item prior to or at the beginning of the modulation of the control information item. The disclosure also provides a lamp unit and a control device for implementing the method. The disclosure also provides a lighting system. | 2011-05-05 |
20110101883 | LED LIGHTING FOR LIVESTOCK DEVELOPMENT - Apparatus and associated methods involve a hangable LED light assembly constructed to provide a selected color output illumination as a function of excitation intensity. In an illustrative example, the color output may be selected to promote biological development throughout livestock development stages (e.g., incubation, growth, and reproduction). The light intensity may controllable, for example, in response to a light dimmer arranged to modulate AC excitation applied to the LED downlight. As the light intensity is decreased in response to a simple dimmer control, the spectral output of the LED downlight may shift its output wavelengths. Accordingly, some exemplary installations may provide controlled combinations of intensity and color to substantially optimize lighting conditions for livestock. | 2011-05-05 |
20110101884 | MULTI-STAGE POWER SUPPLY - There is provided a multi-stage power supply. A multi-stage power supply according to an aspect of the invention may include: a voltage converter circuit section including a plurality of first to n-th DC/DC converters connected in series between an input terminal and an output terminal, in order to supply a DC driving voltage to an LED array having a plurality of LEDs therein; a voltage detection section detecting an output voltage from the voltage converter circuit section; and a PWM control section generating a PWM control signal on the basis of a first detection voltage from the voltage detection section, a second detection voltage obtained by detecting current flowing through the LED array, and a third detection voltage obtained by detecting a current waveform flowing through an internal switch of the n-th DC/DC converter, and supplying the PWM control signal to each of the first through n-th DC/DC converters. | 2011-05-05 |
20110101885 | LED BACKLIGHT CIRCUIT FOR LCD PANELS - An LED backlight circuit includes a transformer that takes a high voltage from a high voltage bus on a first winding. Current induced on a second winding of the transformer charges an energy storage capacitor. Energy stored in the energy storage capacitor drives a single string of series-connected LEDs to provide backlighting to an LCD panel. The high voltage may be taken directly off an output of a power factor correction circuit. | 2011-05-05 |
20110101886 | LOAD CONTROL CIRCUIT - A switch device controls a voltage applied to a load element according to an electric power supply from a power source. A driver circuit controls activation and deactivation of the switch device. A circuit portion sets a duty ratio and output the duty ratio to the driver circuit for causing the driver circuit to activate the switch device according to the duty ratio to control a voltage applied to the load element. The circuit portion sets the duty ratio according to a duty ratio characteristic curve. In the duty ratio characteristic curve, the duty ratio decreases gradually with increase in a voltage of the power source, and decrease in the duty ratio with increase in the voltage of the power source becomes small gradually. | 2011-05-05 |
20110101887 | METHOD OF VIEWING A SUBJECT - A method and apparatus are provided for viewing a subject. The method includes the steps of providing a predetermined visual contrast among image details of the subject and maintaining the visual contrast for a predetermined time period of less than 100 milliseconds. | 2011-05-05 |
20110101888 | ORGANIC EL DEVICE, METHOD FOR MANUFACTURING ORGANIC EL DEVICE, AND ELECTRONIC DEVICE - An organic EL device includes a first organic EL element and a second organic EL element on an underlying layer that includes a first drive circuit unit for driving the first organic EL element and a second drive circuit unit for driving the second organic EL element. The organic EL device includes a partition on the underlying layer defining a first region including a first light-emitting layer of the first organic EL element and a second region including a second light-emitting layer of the second organic EL element. The partition defines the first film-forming region such that the first film-forming region includes the first drive circuit unit and the second film-forming region such that the second film-forming region does not include at least part of the second drive circuit unit. The first light-emitting layer is formed by a different method from that used for the second light-emitting layer. | 2011-05-05 |
20110101889 | METHODS AND APPARATUS FOR DETERMINING RELATIVE POSITIONS OF LED LIGHTING UNITS - Methods and apparatus for determining the relative electrical positions of lighting units ( | 2011-05-05 |
20110101890 | Utility helment with integrated lighting system - A welding shield includes a durable shell body having a front viewing window pivotally attached to a headband, a welding shield lens attached to the shell body covering the front viewing window of the shell body, a first light source disposed to the front area of the shell body, a second light source disposed to the front area of the headband, and at least one control device for controlling the light sources. | 2011-05-05 |
20110101891 | VIRTUAL GAP DIELECTRIC WALL ACCELERATOR - A virtual, moving accelerating gap is formed along an insulating tube in a dielectric wall accelerator (DWA) by locally controlling the conductivity of the tube. Localized voltage concentration is thus achieved by sequential activation of a variable resistive tube or stalk down the axis of an inductive voltage adder, producing a “virtual” traveling wave along the tube. The tube conductivity can be controlled at a desired location, which can be moved at a desired rate, by light illumination, or by photoconductive switches, or by other means. As a result, an impressed voltage along the tube appears predominantly over a local region, the virtual gap. By making the length of the tube large in comparison to the virtual gap length, the effective gain of the accelerator can be made very large. | 2011-05-05 |
20110101892 | Accelerator for Accelerating Charged Particles - An accelerator for accelerating charged particles has a plurality of delay lines ( | 2011-05-05 |
20110101893 | Accelerator for Accelerating Charged Particles and Method for Operating an Accelerator - An accelerator for accelerating charged particles has at least two delay lines having different delays, wherein the at least two delay lines have an input side into which electromagnetic waves can be conducted for producing an accelerating electric potential, wherein the input side of the delay lines is designed to reflect electromagnetic waves, and the accelerating electric potential can be produced at least partially by the waves reflected at the input side. In a method for operating an accelerator, which comprises at least two delay lines having different delays, the at least two delay lines have an input side into which electromagnetic waves can be conducted for producing an accelerating electric potential, wherein the electromagnetic waves conducted into the delay lines are reflected at the input side, and the accelerating electric potential can be produced at least partially by the waves reflected at the input side. | 2011-05-05 |
20110101894 | Methods for reducing power consumption of at least partially resonant actuator systems and systems thereof - A method, computer readable medium, and a system for reducing power consumption of an at least partially resonant actuator system includes adjusting a driving system with an actuator controller computing device configured to provide a driving signal including a delay interval during a transition in the driving signal. The driving system provides the driving signal with the delay interval to an at least one partially resonant actuator device. | 2011-05-05 |
20110101895 | METHODS FOR HYBRID VELOCITY CONTROL OF AT LEAST PARTIALLY RESONANT ACTUATOR SYSTEMS AND SYSTEMS THEREOF - A method, computer readable medium, and system for controlling velocity of an at least partially resonant actuator system in accordance with embodiments of the present invention includes determining with an actuator controller computing device a sequence of full bridge and half bridge outputs to control an output velocity of an at least partially resonant actuator device. The actuator controller computing device controls a driver system to output a driving signal based on the determined sequence of full bridge and half bridge outputs. The driver system provides the driving signal to the at least one at least partially resonant actuator device. | 2011-05-05 |
20110101896 | LINEAR MOTOR DEVICE - Provided is a linear motor device which is compact even when a stroke is increased, which can reduce heat generation, and which can eliminate damping force caused by circulating current. The linear motor device includes a linear motor that includes a movable member having a plurality of fields and a stator in which a plurality of armatures including polyphase coils are arranged in line in the moving direction of the movable member, and a controller that sequentially outputs control commands to current amplifiers respectively connected to the armatures in accordance with the relative position of the movable member. The controller selectively outputs the control commands to only the current amplifiers corresponding to the armatures which are opposite the movable member such that the armatures are positioned within a range corresponding to the length in the moving direction of the movable member. | 2011-05-05 |
20110101897 | DC BUS BOOST METHOD AND SYSTEM FOR REGENERATIVE BRAKE - Embodiments of the present invention provide novel techniques for using a switched converter to provide for three-phase alternating current (AC) rectification, regenerative braking, and direct current (DC) voltage boosting. In particular, one of the three legs of the switched converter is controlled with a set of pulse width modulation (PWM) control signals so that the input AC phase having the highest voltage is rectified and one of the switches in the two other legs is turned on to allow for added voltage. This switching activity allows for voltage from multiple AC line mains to be combined, resulting in an overall boost of the DC voltage of the rectifier. The DC voltage boost can then be applied to the common DC bus in order to ameliorate voltage sags, help with motor starts, and increase the ride-through capability of the motor. | 2011-05-05 |
20110101898 | AC-DC CONVERTER, METHOD OF CONTROLLING THE SAME, MOTOR DRIVER, COMPRESSOR DRIVER, AIR-CONDITIONER, AND HEAT PUMP TYPE WATER HEATER - A rectifier connected with an AC source through a reactor, a plurality of capacitors connected in series between output terminals of the rectifier, first switching means connected between one input terminal of the rectifier and a connection point of a plurality of capacitors, second switching means connected between the other input terminal of the rectifier and the connection point of a plurality of capacitors, and a plurality of diodes connected with the plurality of capacitors in inverse-parallel are provided. | 2011-05-05 |
20110101899 | MOTOR CONTROL APPARATUS - A motor control apparatus includes a resolver and a R/D converter in which an electrical angle of 360° is set smaller than a mechanical angle of 360° and that outputs a two-phase encoder signal corresponding to the electrical angle; a two-phase encoder counter that counts the two-phase encoder signal and outputs a digital value corresponding to the electrical angle; a multiplication factor of angle detecting portion that detects a position of the mechanical angle to which an angle indicated by a signal output from the R/D converter corresponds, based on a change in a count value; and a motor controlling portion that corrects a current command value determined based on a torque command value, according to an output of the multiplication factor of angle detecting portion. | 2011-05-05 |
20110101900 | METHOD FOR DETERMINING THE INDUCTANCES OF A PERMANENT MAGNET SYNCHRONOUS MACHINE - The invention relates to a control method implemented in a variable speed drive for determining the inductances (Ld, Lq) of a permanent magnet synchronous machine comprising three phases (a, b, c), each oriented along a direction, a stator, and a rotor. For each phase, one after the other, said method includes steps of: applying, along the direction of the phase (a, b, c), a voltage vector (V | 2011-05-05 |
20110101901 | Power control system for vehicle disk motor - A brushless D.C. disk motor has one or more disk rotor assemblies and pairs of stator assemblies for each rotor assembly. Each disk rotor assembly has a disk and a plurality of permanent magnets distributed along two or more circular paths in the disk inboard of the peripheral edge of the rotor. Each stator assembly has a plurality of pole pieces and coils distributed along a mounting plate in corresponding circular paths. The disk is rotatably mounted to a support member; while the stator sub-assemblies are fixed to the support member. The coils are selectively activated by commutated power control signals generated in response to a vehicle condition parameter, such as vehicle speed or disk motor load, to optimize power drain from the source of electrical power in accordance with the value of the vehicle condition parameter. | 2011-05-05 |
20110101902 | BRUSHLESS ELECTRIC MACHINE - The brushless electric machine includes a first drive member ( | 2011-05-05 |
20110101903 | FAN CONTROL SYSTEM - A fan control system includes a temperature detecting circuit and a rotation rate control circuit. The detecting circuit includes an amplifier and a thermal diode. The detecting circuit detects temperature and outputs a voltage signal. The control circuit receives the voltage signal and controls the rotation rate of the fan according to the voltage signal. | 2011-05-05 |
20110101904 | Overheat Protection Apparatus - An apparatus which estimates the temperatures of a motor without using a temperature sensor can achieve overheat protection by proper control. In an example, a heat generation amount calculation section calculates a heat generation amount of a motor. A current upper limit map has a current upper limit value corresponding to a temperature estimated value and a ratio map has a ratio corresponding to the temperature estimated value. A lower one of limited current values, determined using the two maps, controls energization of the motor. The heat generation amount calculation section includes a heat generation correction term, and a heat radiation correction term for calculating a function of the difference between the integrated value of the heat generation amount and a motor ambient temperature. If the ambient temperature becomes equal to or higher than a comparison temperature, then the heat generation amount is calculated without the heat radiation correction present. | 2011-05-05 |
20110101905 | GENERATING ELECTROMAGNETIC FORCES IN LARGE AIR GAPS - An electromagnetic actuator generates electromagnetic forces across large radial gaps to support a body. The actuator has an actuator target having a rotational axis, and a target magnetic element arranged circumferentially around the rotational axis that has inner and outer magnetic poles. A cylindrical soft-magnetic target pole is magnetically coupled to the outer cylindrical magnetic pole of the target magnetic element. An actuator base includes radial poles arranged circumferentially around and radially spaced apart from the cylindrical soft-magnetic target pole. The radial poles and the cylindrical soft-magnetic target pole are magnetically coupled and define a plurality of magnetic control circuits. Control coils around the radial poles are configured to produce magnetic fluxes in the magnetic control circuits. The target magnetic element, the cylindrical soft-magnetic target pole, and the radial poles are magnetically coupled and define a magnetic bias circuit, the magnetic element producing magnetic flux in the magnetic bias circuit. | 2011-05-05 |
20110101906 | SYNCHRONOUS ELECTRIC MOTOR SYSTEM - The present invention aims to provide a synchronous motor drive system that is capable of suppressing ripples in current while reducing switching loss. The system includes three-phase inverters | 2011-05-05 |
20110101907 | GROUNDING SYSTEM AND APPARATUS - A grounding system for a semiconductor module of a variable speed drive includes a first conductive layer, a second conductive layer; a substrate disposed between the first conductive layer and the second conductive layer; and a base attached to the second conductive layer, the base being connected to earth ground via a grounding harness. The first conductive layer is in electrical contact with the semiconductor module and the substrate, and electrically insulated from the second conductive layer by the substrate. The second conductive layer is in electrical contact with the substrate and disposed between the substrate and the base in electrical communication with an earth ground. The first conductive layer, the substrate and the second conductive layer form a capacitance path between the semiconductor module and the base as well as electrical conductors and the base for reduction circulating currents within the semiconductor module. | 2011-05-05 |
20110101908 | PORTABLE POWER SUPPLY DEVICE POWERED BY CELL PHONE BATTERY - A portable power supply device powered by a cell phone battery essentially includes a base, at least one receiving recess, a charging element, and at least one electrical connection element, wherein each of the at least one receiving recess is configured for receiving a cell phone battery. In addition to charging at least one cell phone battery via the charging element, the portable power supply device is also capable of supplying electric power from at least one cell phone battery to an external electronic device via the at least one electrical connection element coupled to the external electronic device. | 2011-05-05 |
20110101909 | SYSTEMS INVOLVING GENERATION OF ELECTRICAL POWER - Systems involving generation of electrical power are provided. In this regard, a representative system includes: two rechargeable batteries; a DC-to-AC inverter; and a self-recharging system operative to alternately recharge a first of the batteries using charge provided from a second of the batteries, and recharge the second of the batteries using charge provided from the first of the batteries; wherein the DC-to-AC inverter is operative to direct charge from the first of the batteries to a load during recharge of the second of the batteries, and to direct charge from the second of the batteries to the load during recharge of the first of the batteries. | 2011-05-05 |
20110101910 | SELF-ADAPTABLE RECHARGER - A self-adaptable recharger includes a control circuit connected to a power-supply circuit, a current-sampling circuit and a pulse-based recharge circuit. The control circuit includes a microprocessor. The pulse-based recharge circuit includes parallel recharge branches each under control of a pin of the microprocessor. The microprocessor receives voltage-related and current-related signals from each of the recharge branches and compares the same with basic data stored therein to determine the types of batteries. The microprocessor calculates time-related changes in the voltage-related and current-related signals and a voltage difference between positive and zero pulses to determine the recharge status and correct recharging curves accordingly. The microprocessor determines the highest recharge voltage, a positive slope of voltage, a zero gain of voltage, a negative gain of voltage and a capacity gain to determine an energy level in each of the batteries and stops the recharge when the battery is full. | 2011-05-05 |
20110101911 | Battery Charger With Charge Abnormality Checking Function - A battery charger has an abnormal condition checking function for checking unintentional or accidental charging of a secondary battery. A charge circuit charges the battery when a switching element interposed between a power source and the battery is turned on. Current which may flow in the charge circuit is detected when the battery is not to be charged by turning the switching element on. When the current is detected in such a condition, an abnormality signal is produced to cause the charge circuit to be disabled. | 2011-05-05 |
20110101912 | BATTERY CHARGERS - A battery charger includes telephone handset and a connector for connecting with a cellular phone. A sound signal can be transmitted between the telephone handset and the cellular phone via the connector. | 2011-05-05 |
20110101913 | ELECTRONIC DEVICE AND POWER SOURCE CONTROL DEVICE - An electronic device including a first body having a first battery; and a second body having a second battery, the second body being configured to be electrically connected to the first body and separatable from the first body; the first body including: receiving a request for charge of battery from the first body or the second body; retrieving a remaining amount of battery inside the first body and the second body; comparing the battery of the first body and the battery of the second battery on the basis of the retrieved remaining amount of battery; carrying out a charging process for the requested battery indicated by the received request in case that a power source including the not-requested battery satisfies a predetermined requirement as a result of the comparing. | 2011-05-05 |
20110101914 | ELECTRONIC DEVICE SUITABLE FOR BIOIMPLANTATION - The present application discloses an integrated circuit comprising a circuit portion ( | 2011-05-05 |
20110101915 | POWER SUPPLY SYSTEM OF VEHICLE - A charging system of a vehicle for charging a vehicle-mounted power storage device includes a charger configured to receive electric power from a power supply external to the vehicle for charging the power storage device, a charging power sensing portion for sensing charging power supplied to the power storage device, and a charging control device for performing control on the charger by generating a power command value for the charger based on a target value. The charging control device detects a difference between charging power sensed by the charging power sensing portion and the target value and determines presence/absence of abnormality of the charger based on the detected difference. | 2011-05-05 |
20110101916 | CHARGING SYSTEMS WITH CELL BALANCING FUNCTIONS - In a power converter, a primary winding receives an input power. In addition, multiple secondary windings transform the input power into multiple charging currents to charge a set of cells via a set of paths. The multiple secondary windings further balance the set of cells based on the charging currents. A ratio between a first turn number of a first secondary winding of the secondary windings and a second turn number of a second secondary winding of the secondary windings is determined by a nominal voltage ratio between two corresponding cells of the set of cells. | 2011-05-05 |
20110101917 | BATTERY PACK - A battery pack includes a case including external terminals, batteries disposed in the case, and balancing lines connected to each of the batteries and functioning as pathways of a voltage signal transmitted to a controller. At least one of the balancing lines functions as a high current line supplying battery current to the external terminals. Thus, the battery pack may have a simple structure and may be simply assembled using the high current line as a balancing line. | 2011-05-05 |
20110101918 | BATTERY STATE MONITORING CIRCUIT AND BATTERY DEVICE - Provided are a battery state monitoring circuit capable of detecting disconnection of a battery from a power supply terminal or a ground terminal, and a battery device including the battery state monitoring circuit. The battery state monitoring circuit includes voltage detection circuits provided between the power supply terminal and an intermediate terminal and between the intermediate terminal and another intermediate terminal. For example, if a battery ( | 2011-05-05 |
20110101919 | LITHIUM ION BATTERY PACK - A lithium iron phosphate battery pack is disclosed. The battery pack includes a plurality of battery cells, arranged as groups of cells, a controller circuit, and a plurality of intercell tabs coupling the groups of battery cells to the controller circuit. The controller circuit includes a voltage sensor for monitoring the voltage across each of the groups of cells. If one of the groups has a voltage that is lower or higher than a respective lower or upper threshold voltage, the controller circuit will shut off the charge/discharge cycling of all the groups of cells. In doing so, the controller circuit protects the entire battery pack during charge/discharge cycling. | 2011-05-05 |
20110101920 | BATTERY MODULE, BATTERY SYSTEM AND ELECTRIC VEHICLE INCLUDING THE SAME - A battery system includes a plurality of battery modules each including a plurality of battery cells. One battery module includes a main circuit board, and the other battery modules include auxiliary circuit boards. The main circuit board includes a cell characteristics detecting circuit that detects characteristics of each battery cell and a control-related circuit having a function related to control of the plurality of battery modules. The auxiliary circuit board includes a cell characteristics detecting circuit that detects characteristics of each battery cell, and does not include a control-related circuit having the function related to control of the plurality of battery modules. In a battery module of another battery system, a first printed circuit board, a board holder and a second printed circuit board are attached to one end surface frame. A voltage detecting circuit that detects a voltage between terminals of each battery cell and a communication circuit having a communication function are mounted on the first and second printed circuit boards, respectively. | 2011-05-05 |
20110101921 | BATTERY PACK - Battery pack circuits are provided. In one embodiment, the invention relates to a battery pack including a rechargeable battery including a first battery terminal and a second battery terminal coupled to a common terminal, a discharge control switch coupled between the first battery terminal and a first discharging terminal, a charge control switch coupled between the first discharging terminal and a first charging terminal, wherein the battery pack is configured to provide a current to a load coupled between the first discharging terminal and the common terminal, and a processing circuitry configured to charge and discharge the battery by controlling the discharge control switch and the charge control switch. | 2011-05-05 |
20110101922 | CONTROL CIRCUIT OF SECONDARY BATTERY - A control circuit for a secondary battery is disclosed. The control circuit level shifts a voltage corresponding to charge or discharge current so that the level shifted voltage can be provided to an A/D converter. | 2011-05-05 |
20110101923 | Ceiling Fan Motor with Generator Winding - A ceiling fan motor with a generator winding is disclosed. A stator is fixed on a motor axle. It is surrounded with several first magnetizing coils, each of which is winded with a second magnetizing coil with a generator winding. A rotor is mounted on the motor axle. The rotor has several magnetic objects around the stator. Each first magnetizing coil is affected by an input voltage to generate an inducing magnetic field for rotating the rotor with respect top the stator. The second magnetizing coil on the stator detects and receives a back electromotive force produced because the rotor rotates and cuts through the magnetic lines, thereby generating electrical power. | 2011-05-05 |
20110101924 | ELECTROLYTIC SOLUTION FOR LITHIUM BATTERY, LITHIUM BATTERY COMPRISING THE SAME AND METHOD OF OPERATING THE LITHIUM BATTERY - An electrolytic solution for a lithium battery including a positive electrode having a nickel-cobalt-manganese based active material, the electrolytic solution including a nonaqueous organic solvent and a lithium salt, the nonaqueous organic solvent including ethylene carbonate and dimethyl carbonate, a lithium battery including the electrolytic solution, and a method of operating the lithium battery. | 2011-05-05 |
20110101925 | FEEDBACK-ADJUSTABLE CHARGING SYSTEM AND METHOD THEREOF - The present invention provides a feedback-adjustable charging system applicable to a rechargeable electronic device and a method thereof. The feedback-adjustable charging system comprises a converter module, an adjustable voltage module and maybe a connective module. The converter module is coupled to an AC power supply and is used for converting AC power from the AC power supply into DC power. The adjustable voltage module is coupled to the converter module for receiving the DC power and producing a voltage used for charging. The connective module is coupled to the electronic device and the adjustable voltage module for receiving and transmitting the charging voltage to the electronic device and for producing a feedback parameter to the adjustable voltage module. In the charging system, the adjustable voltage module is used to adjust a value of the charging voltage according to the feedback parameter. | 2011-05-05 |
20110101926 | CHARGING DEVICE - A charging device for providing an output voltage to charge a flash capacitor is provided. A transformer includes a primary winding and a secondary winding. The transformer generates a primary voltage according to an input voltage and generates a secondary voltage according to the primary voltage. A diode coupled between the secondary winding of the transformer and the flash capacitor provides the output voltage according to the secondary voltage. A current detector detects a current flowing through the primary winding of the transformer and generates a detection signal. A determining circuit generates a determining signal according to the primary voltage, the secondary voltage and a reference voltage. A control circuit switches a switch coupled between the primary winding of the transformer and a ground according to the detection signal and the determining signal, so as to control the transformer to charge the flash capacitor. | 2011-05-05 |
20110101927 | POWER GENERATION SYSTEM AND METHOD WITH VOLTAGE FAULT RIDE-THROUGH CAPABILITY - A power generation system includes a generator mechanically coupled to a turbine to generate electrical power. The system includes a fault ride through system having a variable resistor and a variable inductor. The variable resistor is connected in parallel across output terminals of the generator to absorb power from the generator during a grid fault condition, and the variable inductor is connected between an output terminal of the generator and a power grid. | 2011-05-05 |
20110101928 | OUTPUT CONTROL APPARATUS OF GENERATOR - An excitation winding ( | 2011-05-05 |
20110101929 | CONDENSIVE LOAD PROTECTION DEVICE OF SELF-EXCITED GENERATOR - In a self-excited generator | 2011-05-05 |
20110101930 | POWER SUPPLY DEVICE - A power supply device comprising: a magneto generator including a rotor including a magnet forming a magnetic field; a rectifying unit rectifying an alternating current of the generator to a direct current and supplying to an electrical load; a voltage detection unit detecting a voltage of the electrical load; an opening unit interrupting electrical conduction of an output of the generator; short-circuiting units electrically short-circuiting the output; a torque supplying device supplying torque to the rotor; a voltage control unit selectively performing one of opening-control of controlling on/off switching of the opening unit and short-circuit-control of controlling on/off switching of the short-circuiting units to control the voltage of the electrical load to a predetermined value in accordance with the voltage detected by the voltage detection unit; a switching control unit switching and controlling between the above two controls in accordance with an operating state regarding rotation of the rotor. | 2011-05-05 |
20110101931 | Load adaptive DC Power Supply - A load adaptive DC power supply circuit, comprising: a power converter, a current detector and a scan controller. The power converter provides an output voltage. The scan controller controls the power converter to change the output voltage and conduct voltage scanning. The current detector generates an output current signal according to the output current. The scan controller analyzes the output current signal and obtains an optimal output voltage. | 2011-05-05 |
20110101932 | DC-DC CONVERTER AND DC VOLTAGE CONVERSION METHOD - It is desired to provide a DC-DC converter realizing proper slope compensation when an output voltage is dynamically changed with low power consumption, high efficiency and stable operation. Such DC-DC converter includes: a circuit converting an input voltage being switched in response to a drive signal to an output voltage; an amplifier generating an error signal based on an error between a target output voltage and the output voltage; a comparator generating a PWM signal based on the error signal, a current feedback signal corresponding to a current value between the input and output, and a slope compensation signal of a current value between the input and output; a circuit generating the drive signal based on the PWM signal and a period signal; a register recording a set voltage value corresponding to the target output voltage; and a circuit generating the slope compensation signal corresponding to the set voltage value. | 2011-05-05 |
20110101933 | Power Converter with Controller Operable in Selected Modes of Operation - A power converter and method of controlling the same for selected modes of operation. In one embodiment, the power converter includes a first power switch coupled to a source of electrical power and a second power switch coupled to the first power switch and to an output terminal of the power converter. The power converter also includes a controller configured to control an operation of the first and second power switches during selected modes of operation. | 2011-05-05 |
20110101934 | Power Converter with Controller Operable in Selected Modes of Operation - A power converter and method of controlling the same for selected modes of operation. In one embodiment, the power converter includes a first power switch coupled to a source of electrical power and a second power switch coupled to the first power switch and to an output terminal of the power converter. The power converter also includes a controller configured to control an operation of the first and second power switches during selected modes of operation. | 2011-05-05 |
20110101935 | POWER SUPPLY CONTROL APPARATUS - A power supply control apparatus includes: an output transistor coupled between a first power supply line and an output terminal, the output terminal being configured to be coupled with a load; a protection transistor coupled between a gate of the output transistor and a second power supply line; a negative voltage control unit coupled between the first power supply line and the gate of the output transistor; a compensation transistor bringing the second power supply line and the output terminal into a conduction state when a counter electromotive voltage from the load is applied to the output terminal; and a back gate control circuit that controls the second power supply line and a back gate of each of the compensation transistor and the protection transistor to be brought into a conduction state in a standby state when the polarity of the power supply is normal. | 2011-05-05 |
20110101936 | LOW DROPOUT VOLTAGE REGULATOR AND METHOD OF STABILISING A LINEAR REGULATOR - A low dropout (LDO) voltage regulator comprises a regulating element ( | 2011-05-05 |
20110101937 | Voltage Regulator with Virtual Remote Sensing - An automatic voltage compensation circuit in a voltage regulator compensates the output voltage for a voltage drop along lines leading to a remote load. A load capacitor is connected across the load for providing a low impedance across the load during a test phase of the regulator. In one embodiment, during the test phase, the load current is changed up or down a small percentage (e.g., 10%). As a result, the regulator voltage changes due only to the line resistance since the load is bypassed by the load capacitor. The voltage drop at full load current is then derived by detecting the change in regulator output voltage (a fractional voltage drop) and multiplying it. The normal mode is resumed, and the derived voltage drop is added to the regulator output by either compensating the feedback loop or by adding the voltage drop to the output of the regulator. | 2011-05-05 |
20110101938 | ADAPTIVE-GAIN STEP-UP/DOWN SWITCHED-CAPACITOR DC/DC CONVERTERS - A switched-capacitor DC-DC converter has a reconfigurable power stage with variable gain ratio and/or interleaving regulation for low ripple voltage, fast load transient operation, variable output voltage and high efficiency. Since the power stage has multiple switches per capacitor, the converter exploits reconfigurable characteristics of the power stage for fast dynamic control and adaptive pulse control for tight and efficient voltage regulation. | 2011-05-05 |
20110101939 | DRIVING CONTROLLER, POWER CONVERSION CIRCUIT, AND METHOD FOR MODULATING DRIVING VOLTAGE LEVEL WITH RESPECT TO LOADS - A driving controller, power conversion circuit, and method for modulating driving voltage level with respect to a load are disclosed. In which the method, controller and circuit are applied for modulating the driving voltage of a transistor in a power converter. The driving controller includes a load parameter measurement unit, a voltage modulation unit, and a driving control unit. In which the load parameter measurement unit detects a load parameter which represents the magnitude of the load of the power conversion circuit. The voltage modulation unit then modulates the potential level of the driving voltage of the transistors in response to the load parameter for reducing unnecessary power consumption associated with the transistors in the power converter and enhancing overall power efficiency of the power conversion circuit. | 2011-05-05 |
20110101940 | SEMICONDUCTOR DEVICE AND POWER SUPPLY DEVICE - The present invention realized miniaturization of a power supply device using a multiphase system. The power supply device includes, for example, a common control unit, a plurality of PWM-equipped drive units, and a plurality of inductors. The common control unit outputs clock signals respectively different in phase to the PWM-equipped drive units. The clock signals are controllable in voltage state individually respectively. For example, the clock signal can be brought to a high impedance state. In this case, the PWM-equipped drive unit detects this high impedance state and stops its own operation. It is thus possible to set the number of phases in multiphase arbitrarily without using another enable signal or the like. | 2011-05-05 |
20110101941 | LOAD DRIVING DEVICE - A load driving device according to an exemplary aspect of the present invention includes: an output transistor coupled between a first power supply line and an output terminal; the output terminal being configured to be coupled with a load; a driver circuit that controls conduction/non-conduction of the output transistor; a compensation transistor that is coupled between the output terminal and a second power supply line, and becomes conductive when the driver circuit renders the output transistor non-conductive and when a potential of the second power supply line reaches a predetermined value or greater, to maintain a non-conduction state of the output transistor; and a first resistor coupled between the second power supply line and a back gate of the compensation transistor. | 2011-05-05 |
20110101942 | VOLTAGE REGULATOR CIRCUIT - A voltage regulator circuit includes a transistor and a capacitor. The transistor includes a gate, a source, and a drain, a first signal is inputted to one of the source and the drain, a second signal which is a clock signal is inputted to the gate, an oxide semiconductor layer is used for a channel formation layer, and an off-state current is less than or equal to 10 aA/μm. The capacitor includes a first electrode and a second electrode, the first electrode is electrically connected to the other of the source and the drain of the transistor, and a high power source voltage and a low power source voltage are alternately applied to the second electrode. | 2011-05-05 |
20110101943 | CURRENT DETECTOR - A current detector is comprised of a switch portion having an input node, an output node and a detection node, the switch portion being configured to selectively shift a power current between the input node and the output node and a detection current between the input node and the detection node; a current controller configured to control the detection current so as to equalize voltages at the detection node and the output node, the current controller being coupled with the detection node and the output node and including a transistor and a diode coupled to the transistor in series so as to prevent impression of negative voltage on the transistor, the transistor and the diode being formed within a single monolithic substrate; and a monitor current output portion having a monitor node and being coupled with the current controller, the monitor current output portion being configured to mirror the detection current in the current controller to the monitor node. | 2011-05-05 |
20110101944 | VOLTAGE BOOSTING/LOWERING CIRCUIT - A voltage boosting/lowering circuit in accordance with present invention includes an output voltage generation circuit including a first switch element connected between an input terminal and one end of a choke coil and a second switch element connected between the other end of the choke coil and a ground terminal, the output voltage generation circuit being configured to boost or lower an input voltage input to the input terminal and thereby to generate an output voltage by switching the first and second switch elements between an On-state and an Off-state. Further, voltage boosting/lowering circuit includes a clock generation circuit that generates voltage-boosting and voltage-lowering clocks having different timings, and a switch control unit that performs switching control of the first and second switch elements based on the voltage-boosting and voltage-lowering clocks so that negative feedback control is performed so as to bring the output voltage to a target output voltage. | 2011-05-05 |
20110101945 | MULTI-CHANNEL LOW VOLTAGE MICRO-ELECTRIC-FIELD GENERATOR - A biologic and medical multi-channel low voltage micro-electric-field generator including a power supply unit, at least one micro-electric-field generating unit set comprising a step-down unit, a linear regulator unit, and a pulse generating and outputting unit, and a programmable logic control unit. The micro-electric-field generating unit set is connected to an output end of the power supply unit. The step-down unit depresses the voltage of frequency power. The linear regulator unit regulates the output of the step-down unit. The pulse generating and outputting unit turns on/off the output of the linear regulator unit and connects to a network electrode group. The programmable logic control unit controls the characteristics of the output pulse from the pulse generating and outputting unit. The generator is applicable in gene, protein, drug and/or a variety of plasmids delivery to the organs, cells within the tissues of large animal or human. | 2011-05-05 |
20110101946 | VOLTAGE CONVERTERS - Various aspects can be implemented to achieve efficient voltage conversion. In general, one aspect can be a switching regulator for DC-DC step-down voltage conversion that includes a high-side transistor and a low-side transistor coupled in series and a first circuitry configured to operate in a synchronous mode such that the high-side transistor and the low-side transistor are used for voltage switching. The switching regulator also includes a second circuitry configured to operate in a non-synchronous mode such that the high-side transistor and one or more diodes are used for voltage switching. The switching regulator further includes an automatic mode selector configured to output a control signal and automatically select between the synchronous mode of operation and the non-synchronous mode synchronous mode of operation based in part on a voltage between source and drain of the low-side transistor and a predetermined delay time. | 2011-05-05 |
20110101947 | INTEGRATED CIRCUIT WITH DC-DC CONVERTER - An integrated circuit ( | 2011-05-05 |
20110101948 | Power Converter with Controller Operable in Selected Modes of Operation - A power converter and method of controlling the same for selected modes of operation. In one embodiment, the power converter includes a first power switch coupled to a source of electrical power and a second power switch coupled to the first power switch and to an output terminal of the power converter. The power converter also includes a controller configured to control an operation of the first and second power switches during selected modes of operation. | 2011-05-05 |
20110101949 | Power Converter with Controller Operable in Selected Modes of Operation - A power converter and method of controlling the same for selected modes of operation. In one embodiment, the power converter includes a first power switch coupled to a source of electrical power and a second power switch coupled to the first power switch and to an output terminal of the power converter. The power converter also includes a controller configured to control an operation of the first and second power switches during selected modes of operation. | 2011-05-05 |
20110101950 | IMPEDANCE CORRECTION - One embodiment of an impedance stabilizer for use with a switching voltage regulator supplied by a source of an electrical voltage has an impedance and a switch controllable to permit current from a source to flow through the impedance. Control circuitry to operate the switch cyclically with a controlled duty cycle is responsive to variations in the voltage of the source having a frequency lower than a cycle rate of the switch to increase the duty cycle of the switch as the voltage of the source increases. | 2011-05-05 |
20110101951 | Zero-Voltage-Switching Self-Driven Full-Bridge Voltage Regulator - non-isolated full bridge (FB) converters have self-driven synchronous rectifier (SR) MOSFETs in the current doubler rectifier (CDR). The gate terminals of the SR MOSFETs are connected to the bridge leg midpoints of the FB converter. The primary side of the FB converter shares the same ground of the secondary side, which provides the gate drive path for the SRs. The asymmetrical control featuring zero-voltage-switching (ZVS) capability is applied to the two bridge legs of the FB converter respectively. This creates the right gate drive voltage waveforms for the SRs. The energy of the leakage inductance of the transformer is used to achieve SR gate energy recovery. High gate drive voltages can be used to reduce the on-resistance of SRs and the conduction loss. In this way, no additional gate driver circuitry is needed for the SRs compared to the conventional external drive circuitry for SRs. In this invention, the above features provide high conversion efficiency with high switching frequency. This can help to achieve high power density and fast dynamic response accordingly. The invented power circuits are suitable to low voltage and high current application. | 2011-05-05 |
20110101952 | VOLTAGE REGULATOR WITH GATE RESISTOR FOR IMPROVED EFFICIENCY - A voltage regulator includes an active control switch, an active sync switch, a driver circuit, and a gate resistor. The active control switch is coupled between an input voltage line and an input of an energy storage device. The active sync switch is coupled to the input of the energy storage device. The driver circuit is coupled to the control and sync switches to alternately drive each of the control and sync switches into a conducting state to produce a regulated voltage at an output of the energy storage device. The gate resistor is coupled in series within a control path of the sync switch. The gate resistor has a resistance value that is tuned to reduce an anticipated dead time between a turn-off time of the sync switch and a turn-on time of the control switch. | 2011-05-05 |
20110101953 | Control Device and Switching Power Supply - A control device for a switching power supply includes an frequency-hopping oscillator for generating an oscillating signal and an indication signal, an SR flip flop for outputting a driving signal according to the oscillating signal and the indication signal, to control a primary winding of a transformer of the switching power supply, a comparator for comparing a current sense signal of the primary winding and a subtraction result, to output the comparison result to the SR flip flop, a ramp generator for generating ramp signals with time-varying slopes, and a subtraction unit for performing a subtraction operation on a feedback signal and the ramp signals, to generate the subtraction result for the comparator. | 2011-05-05 |
20110101954 | REFERENCE SIGNAL GENERATOR AND METHOD FOR PROVIDING A REFERENCE SIGNAL WITH AN ADAPTIVE TEMPERATURE COEFFICIENT - A voltage source provides a first voltage which is independent of temperature variation and variable, and a voltage step-down circuit provides a second voltage to be subtracted from the first voltage to generate a reference signal. The second voltage has a first temperature coefficient, and the reference signal has a second temperature coefficient. By changing the first voltage, the second temperature coefficient changes accordingly. | 2011-05-05 |
20110101955 | SYSTEM AND METHOD FOR IMPLEMENTING LOW-COST ELECTRONIC GYROSCOPES AND ACCELEROMETER - Accelerometers have a number of wide-ranging uses, and it is desirable to both increase their accuracy while decreasing size. Here, millimeter or sub-millimeter wavelength accelerometers are provided which has the advantage of having the high accuracy of an optical accelerometer, while being compact. Additionally, because millimeter or sub-millimeter wavelength signals are employed, cumbersome and awkward on-chip optical devices and bulky optical mediums can be avoided. | 2011-05-05 |
20110101956 | Electricity Usage Monitor System - A system for monitoring electricity usage comprising a plurality of sender units having sender identification tags wherein the plurality of sender units are capable of being connected to AC power distribution wiring that carries AC waveforms, and wherein the plurality of sender units are capable of being in electrical communication with an appliance having a current draw; and a central detector capable of being connected to the AC power distribution wiring wherein the plurality of sender units are capable of being in electrical communication with the central detector through the AC power distribution wiring, and wherein the plurality of sender units are capable of transmitting a transient pulse on the AC power distribution wiring wherein the transient pulse is embedded at a location on the AC waveform wherein the location is relative to the sender identification tag and wherein the location is further relative to the current draw of the appliance. | 2011-05-05 |
20110101957 | Method for Reconstructing Sparse Signals from Distorted Measurements - A signal x is reconstructed by measuring the signal x as a vector y of measurements y | 2011-05-05 |
20110101958 | CURRENT SENSOR - A current sensor | 2011-05-05 |
20110101959 | CURRENT-CONTROLLED SEMICONDUCTOR DEVICE AND CONTROL UNIT USING THE SAME - The present invention aims to provide a current-controlled semiconductor device which corrects fluctuations of both gain and offset of a current detection circuit to thereby enable high-accuracy current detection within a single-chip IC, and a control unit using the same. | 2011-05-05 |
20110101960 | CLAMP JAW ASSEMBLY - A clamp jaw assembly for a clamp meter is provided. The clamp jaw assembly comprises a housing containing a clamp jaw core disposed within a shield. The housing, shield, and core of the clamp jaw assembly are configured to provide an extended creepage and clearance path from an exterior of the housing to a surface of the core. | 2011-05-05 |
20110101961 | METHOD FOR MEASURING HEARING AID COMPATIBILITY - A method for measuring hearing aid compatibility (HAC) includes providing a probe and scanning testing points of a testing region obtained by the probe. The probe includes a circuit board, an electric field detecting probe, and a magnetic field detecting probe. The electric field detecting probe and the magnetic field detecting probe are located on the circuit board. | 2011-05-05 |
20110101962 | PROBE - A probe includes a circuit board, an electric field detecting probe, and a magnetic field detecting probe. The electric field detecting probe and the magnetic field detecting probe are located on the circuit board. An anti-jamming distance between the two detecting probes is a multiple of 5 millimeters and is greater than or equal to 10 millimeters. | 2011-05-05 |
20110101963 | CURRENT SENSOR - To produce an insulated current sensor for slaving power devices in the field of avionics, use is made of a magnetic core through which there passes an element traversed by a current to be measured. The magnetic core comprises a secondary winding across the terminals of which are connected an oscillator and a measurement device. The cooperation of the oscillator and of the measurement device makes it possible to circumvent all the traditional drifting of current sensors. | 2011-05-05 |
20110101964 | Magnetic Encoder Element for Position Measurement - A magnetic encoder element for use in a position measurement system including a magnetic field sensor for measuring position along a first direction is disclosed. The encoder element includes at least one first track that includes a material providing a magnetic pattern along the first direction, the magnetic pattern being formed by a remanent magnetization vector that has a variable magnitude dependent on a position along the first direction. The gradient of the remanent magnetization vector is such that a resulting magnetic field in a corridor above the first track and at a predefined distance above the plane includes a field component perpendicular to the first direction that does not change its sign along the first direction. | 2011-05-05 |
20110101965 | MAGNETIC DETECTION DEVICE - A magnetic detection device includes a signal processing circuit that detects a moving position and a moving direction of a magnetic mobile object using an output of a comparing circuit configured to output a signal by comparing an output signal of a magneto-electric transducer element with a threshold. A duration during which an output of the signal processing circuit is in a high level or in a low level is fixed to a period t | 2011-05-05 |
20110101966 | MAGNETIC POSITION SENSOR COMPRISING A TAPPING LAYER CONSISTING OF AN AMORPHOUS METAL - The invention relates to a magnetic position sensor ( | 2011-05-05 |
20110101967 | ENHANCED PERFORMANCE PROXIMITY SENSOR - An industrial control sensor is provided. The sensor includes a sensor circuit to detect changes in an electromagnetic field induced from an object or material passing in proximity of the electromagnetic field. This includes a housing that employs the sensor circuit as part of an inductive proximity sensor. A sensor face is attached to the housing, where the sensor face receives the changes in the electromagnetic field and transmits the changes to the sensor circuit, and where the sensor face has a higher electrical resistivity or a lower temperature coefficient of resistivity than stainless steel. | 2011-05-05 |
20110101968 | INDUCTIVE POSITION SENSOR - In an inductive position sensor for determining the position, particularly the rotation angle, of a movable element, at least two subsystems are provided, which each have second transmitting units with an actuating unit, an oscillating circuit on the movable element, and a receiving unit with an evaluating unit. According to the invention, it is provided that the operation of the individual subsystems is carried out alternately. Thus, if one subsystem is operating, all other subsystems are deactivated. In this way, all subsystems are individually operated in a consecutive manner. The synchronization required to do so is provided by a non-galvanic coupling of the subsystems, and in particular by an inductive coupling by way of preferably existing inductances of the subsystems. | 2011-05-05 |
20110101969 | SELF-POWERED MAGNETIC TACHOMETER - A tachometer for supplying a signal representative of the rotational rate of a rotatable device includes a plurality of detection magnets, an index feature, and one or more non-rotationally mounted magnetic circuits. The detection magnets are coupled to, and spaced around, the device, to thereby rotate with the device when the device is rotated. The index feature is associated with the rotatable device, to thereby rotate with the device when the device is rotated. The index feature and the plurality of detection magnets are spaced evenly around the device. The magnetic circuits are spaced evenly around the device, and each magnetic circuit is configured to supply a first electrical signal each time one of the detection magnets rotates past the magnetic circuit and a second electrical signal each time the index feature rotates. | 2011-05-05 |
20110101970 | POSITION SIGNALING DEVICE - A position signaling device is disclosed for detecting a position of two metallic or metal-coated components that can move relative to one another. the device can include a magnetic field-sensitive sensor and at least one bias magnet that are spatially separated from one another and are arranged in a stationary manner relative to one another. The magnetic field-sensitive sensor and the bias magnet on two sides border a receiving gap in which one of the two components can be moved relative to the other. The magnetic field-sensitive sensor and the bias magnet are connected to one of the two components. In a vicinity of the magnetic field-sensitive sensor and/or of at least one bias magnet, at least one flux concentrator is arranged such that a largely closed magnetic circuit is formed. | 2011-05-05 |
20110101971 | Method and apparatus for estimating the condition of a coating on an underground pipeline - Methods are provided for reducing interference from stray currents in buried pipelines/metal structures during MEIS testing or other current-sensing applications in the pipeline. Methods are also provided for measuring bulk complex electrical impedance between a buried pipe and the soil, thereby rendering an indication of the quality of the anti-corrosive coating. Methods are also provided for measuring the complex propagation constant of AC voltages propagating along an attenuative pipeline. This information is useful for assessing the general condition of the anti-corrosive coating involved, or to enhance MEIS inspection of the pipeline. Methods are also provided for enhancements to MEIS testing, including (a) canceling magnetometer offset effects associated with the Earth's magnetic field after the magnetometer is positioned for measurement, (b) implementing a separate sensing connection to the pipe so as to avoid interference from voltage loss in the pipe feed-line connection, (c) providing a power amplifier to excite the pipe with large amplitude signals. | 2011-05-05 |
20110101972 | Gradient Magnetometer Atom Interferometer - Measuring a magnetic gradient according to the present invention includes generating a beam of like atoms with magnetic sublevels, applying a first pulse of electro-magnetic radiation to the beam of atoms to create a coherent superposition of the magnetic sublevels in the atoms in which the superposition results in a plurality of beams following separate paths and in which at least two of the paths are arms of an interferometer, applying a second pulse of electromagnetic radiation to both beams of atoms a time T later with characteristics substantially similar to the first pulse and in which the product of the Rabi frequency and T now must equal π (versus π/2 in the first pulse), whereby the states of the atoms in the two arms of the interferometer are coherently interchanged and are redirected towards each other. The beams of atoms are then recombined by apply a third pulse of electromagnetic radiation a time T±Δt after the second pulse with characteristics substantially similar to the first pulse such that the paths form a closed loop. Then, a detecting pulse of light is used to detect the number of atoms in one magnetic sublevel versus another magnetic sublevel. | 2011-05-05 |
20110101973 | SENSOR SYSTEM AND METHOD - A sensing system includes a conductor with a current flow path therethrough configured such that a current flowing through the conductor establishes an inhomogeneous magnetic field. A first pair of sensors is situated a first location having a first sensitivity, a second pair of sensors is situated at a second location having a second sensitivity lower than the first sensitivity. The first and second pairs of sensors are configured to measure the inhomogeneous magnetic field at their respective locations. | 2011-05-05 |
20110101974 | MAGNETIC FIELD MEASURING APPARATUS - A beam that passes through a plurality of gas cells a number of times is led to a deflection meter from a light ejecting section, detection of a deflected surface angle is performed and a strength of a magnetic field is measured by a structure in which the plurality of the gas cells is arranged along a light beam between two reflection units or light concentrating units that have a light beam incidence section and a light beam ejecting section and are opposite to each other, and a laser beam that is incident from the light beam incidence section passes through the plurality of the gas cells and then is multiply reflected by both reflection units. | 2011-05-05 |
20110101975 | MAGNETIC FIELD SENSOR MEASURING A DIRECTION OF A MAGNETIC FIELD IN A PLANE AND CURRENT SENSOR - A magnetic field sensor for measuring a direction of a magnetic field in a plane comprises two sensing structures ( | 2011-05-05 |
20110101976 | Device for Detecting Metallically Conductive Parts - A facility for generating a detection signal upon the presence of metallic-conductive parts in a conveyed flow that is at least largely non-conductive, in which, for example, an alternating electromagnetic field is established in a section of the conveyed flow to be monitored by means of an alternating current generator and a transmitter coil system, whereby a variation of the signal of said field that is triggered by passage of a part is detected by a receiver coil system and converted into a detection signal by an analytical circuit. The individual components of the system are distributed over separate circuit modules which in turn act in concert by means of a bus system. | 2011-05-05 |