25th week of 2012 patent applcation highlights part 23 |
Patent application number | Title | Published |
20120153852 | LED ILLUMINATING DEVICE FOR STAGE LIGHTING AND METHOD FOR IMPROVING COLOR UNIFORMITY OF THE DEVICE - A LED illumination device for stage lighting includes LED arrays ( | 2012-06-21 |
20120153853 | BACKLIGHT UNIT - A backlight unit includes a driving circuit outputting a driving voltage, light source strings, a first feedback circuit, a first current control circuit, a second feedback circuit, and a second current control circuit. Each light source string includes light sources and receives the driving voltage to generate light. The first feedback circuit outputs a first control signal based on a measured current at input terminals of the light source strings. The first current control circuit receives the driving voltage and controls a strength of the current input at the input terminals based on the first control signal. The second feedback circuit outputs a second control signal based on a measured current at each output terminal of the light source strings. The second current control circuit controls a strength of a current output at each output terminal of the light source strings. | 2012-06-21 |
20120153854 | LIGHTING CIRCUIT, LAMP, AND ILLUMINATION APPARATUS - A lighting circuit that is for a lamp including an LED as a light source and that includes a resonant circuit that can be designed with ease. A lighting circuit | 2012-06-21 |
20120153855 | CIRCUIT OF LED DRIVING POWER, DRIVING POWER AND LIGHTING DEVICE - The present invention is adapted for the field of power supply and provides a circuit of LED driving power, LED driving power and LED lighting device, the circuit of LED driving power comprises a over-voltage protection unit, a AC input filter unit, a full-wave rectifier unit and a single-stage power conversion unit, where the single-stage power conversion unit comprises an auxiliary power supply circuit, a switching circuit and a control unit in which the auxiliary power supply circuit is used to provide auxiliary power supply for single power conversion stage, the switching circuit is used to control DC output by switching on and switching off and the control unit is used to control time point of turning on and turning off dynamically based on the information collected. The present invention can improve the overall efficiency of the LED driving power by controlling switching circuit dynamically in single-stage power conversion unit. | 2012-06-21 |
20120153856 | DRIVING DEVICE OF LIGHT EMITTING DIODE AND LIGHTING APPARATUS USING THE SAME - A driving device of a Light Emitting Diode (LED) and a lighting apparatus using the same are provided. The driving device of the LED is adapted for receiving an Alternating Current (AC) power source adjusted by a dimmer and a transformer unit, and includes a dimming driving unit and a voltage multiplier unit. The dimming driving unit receives a driving Direct Current (DC) power source produced by the voltage multiplier unit, so as to drive and adjust the brightness of a light source of an LED unit. The voltage multiplier unit multiplies the AC power source according to a power specification of the dimming driving unit, so as to transform and supply the driving DC power source to the dimming driving unit, and thus flicker on the light source of the LED unit can be avoided during dimming. | 2012-06-21 |
20120153857 | POWER SUPPLY AND DISPLAY DEVICE INCLUDING THE SAME - The power supply includes: an electromagnetic interference filter including a first filter which has a pair of electromagnetically coupled cores having at least two leg parts, first and second bobbins each having a tube-shaped body part having a penetration hole into which each of the leg parts is inserted and having a winding region defined as the circumference of the outer peripheral surface of the body part, and first and second coils respectively wound around the first and second bobbins to remove common mode electromagnetic interference included in power transmitted from a power line, the electromagnetic interference filter removing differential mode electromagnetic interference due to leakage inductance formed due to the leakage of magnetic flux flowing through the cores; a power factor corrector correcting a power factor of the power where the electromagnetic interference is removed; and a power converter switching the power-factor-corrected power into a driving power having a predetermined voltage level. | 2012-06-21 |
20120153858 | Switching Parameter Based Discontinuous Mode-Critical Conduction Mode Transition - An electronic system includes a controller to provide at least dual-mode conduction control of a switching power converter. In at least one embodiment, the controller is capable to control transitions between discontinuous conduction mode (DCM) and critical conduction mode (CRM) of the switching power converter using a measured switching time parameter having a value corresponding with an approximately peak voltage of a time-varying supply voltage supplied to the switching power converter. In at least one embodiment, the controller dynamically compensates for changing parameters of the electronic system by dynamically determining a minimum non-conductive time of the control switch of the switching power converter using the measured switching time parameter value at approximately the peak of the supply voltage of the supply voltage. | 2012-06-21 |
20120153859 | DRIVING CIRCUIT FOR DRIVING LIGHT EMITTING DIODES AND SIGNAL-EXTENDING CIRCUIT APPLIED TO A DRIVING CIRCUIT FOR DRIVING LIGHT EMITTING DIODES - A driving circuit for driving light emitting diodes includes a signal-extending circuit and a current sink. The signal-extending circuit is used for receiving an original dimming signal and extending a duty cycle of the original dimming signal. The current sink is coupled to the signal-extending circuit for generating a driving current for driving a series of light emitting diode. | 2012-06-21 |
20120153860 | Piezo-Phototronics - A device includes a substrate having a first surface. A piezoelectric nanowire is disposed on the first surface of the substrate. The piezoelectric nanowire has a first end and an opposite second end. The piezoelectric nanowire is subjected to an amount of strain. A first Schottky contact is in electrical communication with the first end of the piezoelectric nanowire. A second Schottky contact is in electrical communication with the second end of the piezoelectric nanowire. A bias voltage source is configured to impart a bias voltage between the first Schottky contact and the second Schottky contact. A mechanism is configured to measure current flowing through the piezoelectric nanowire. The amount of strain is selected so that a predetermined current will through the piezoelectric nanowire when light of a selected intensity is applied to a first location on the piezoelectric nanowire. | 2012-06-21 |
20120153861 | SYSTEMS AND METHODS FOR DYNAMIC POWER MANAGEMENT FOR USE WITH A VIDEO DISPLAY DEVICE - Embodiments of the present invention relate to methods and circuits for use with a system including a light emitting element (e.g., a laser diode or light emitting diode) that is driven by a current produced by a current output digital-to-analog converter (DAC), wherein the light emitting element or the DAC is powered by a supply voltage produced by a voltage supply. In accordance with an embodiment, a measure indicative of a voltage at an output of the DAC is obtained, wherein the voltage at the output of the DAC is indicative of a voltage headroom available for the DAC. The measure indicative of the voltage at the output of the DAC is compared to one or more predetermined references, and the supply voltage is controlled based on the comparison(s). | 2012-06-21 |
20120153862 | APPARATUS OF DRIVING LIGHT EMITTING DIODE USING ERASABLE PROGRAMMABLE LOGIC DEVICE CHIP - Provided is an apparatus that drives a light emitting device using an erasable programmable logic device (EPLD) chip. The apparatus may include the light emitting device, and a driving unit to use the EPLD chip storing programming information corresponding to the light emitting device, and to drive the light emitting device based on the stored programming information. The EPLD chip may receive the programming information inputted from an external terminal, and may store the programming information in a predetermined storage space. | 2012-06-21 |
20120153863 | LED LIGHTING DEVICE AND ILLUMINATION APPARATUS INCLUDING SAME - An LED lighting device includes a converter for converting a power source voltage into a DC voltage and outputting it to an LED unit; and a controller for controlling an output of the converter. The converter has a chopper circuit including a series circuit of an inductance element and a capacitor; a switching element connected to the inductance element in series and turned on/off by the controller; and a diode as discharging path of the inductance element during an OFF state of the switching element. The controller controls an on/off time of the switching element such that a current supplied to the LED unit during a specific time period after a lighting operation is started becomes smaller than a current supplied to the LED unit in a steady state by using a voltage generated in a secondary coil of the inductance coil as an operating voltage thereof. | 2012-06-21 |
20120153864 | WAVELENGTH SPECIFIC SILICON LIGHT EMITTING STRUCTURE - This invention relates to relates to silicon light emitting devices (SiLEDs), and its application into current Complementary Metal Oxide Semiconductor (CMOS) technology, as well into future Silicon on Insulator (SOI) technology. According to the invention, a silicon based light emitting device is designed to operate by means of avalanche carrier multiplication and emitting at the below threshold wavelength detection range for Silicon of 850 nm and such that it is compatible with CMOS silicon nitride, silicon oxi-nitride and polymer waveguide technology. This favours diverse electro-optical system applications such as electro-optical couplers, fast data transfer on and from chip, various optical interconnect configurations as well as diverse on-chip sensor, fluidic and micro-optical-mechanical sensor applications. Under particular operating conditions emissions at specific wavelengths (for example the longer wavelengths) may be favoured, while in other cases tuning of the emitted radiation may be obtained. | 2012-06-21 |
20120153865 | LIGHT EMITTING DIODE MODULE REPLACEMENT FOR LINEAR FLUORESCENT - A lighting assembly for an existing linear fluorescent fixture includes a support, at least two opposing light emitting diodes (LED) on respective sides of the support configured to direct light in opposite general directions, a housing configured to cover the support and the at least two opposing LEDs; and end caps including electrical connectors to connect to electrical connections of the existing linear fluorescent fixture. | 2012-06-21 |
20120153866 | DC/DC CONVERTER WITH MULTIPLE OUTPUTS - Embodiments of the invention provide a DC/DC converter. The DC/DC converter includes a transformer, a switch controller and a driver controller. The transformer has a primary winding coupled to a power source, a first secondary winding provides a first output voltage to a first load, and a second secondary winding provides a second output voltage to a second load. The switch controller is coupled to the primary winding and controls a first switch coupled to the primary winding to control input power to the primary winding and to regulate the first output voltage based on a power requirement of the first load. The driver controller is coupled to the second secondary winding and generates a pulse modulation signal to alternately turn on and turn off a second switch coupled to the second secondary winding to regulate the second output voltage based on a power requirement of the second load. | 2012-06-21 |
20120153867 | LAMP UNIT WITH A PLURALITY OF LIGHT SOURCE AND TOGGLE REMOTE CONTROL METHOD FOR SELECTING A DRIVE SETTING THEREFOR - The present invention relates to a lamp unit ( | 2012-06-21 |
20120153868 | LIGHT TIMEOUT OPTIMIZATION - A lighting controller may optimize a timeout value of a lamp based on the goals of saving energy and providing occupant comfort. The lamp may illuminate a lighting area. The lighting controller may determine a false-negative rate for the lamp from sensor data that represents a frequency at which the lamp is timed out while the lighting area is occupied. The lighting controller may adjust the timeout value of the lamp over time so that the false-negative rate approaches a threshold false-negative rate. The false-negatives and occupancy periods may be detected from spikes in time distributions of motion data. The amount of energy that the lamp would consume at an increased timeout value of the lamp may be determined from motion data stored while the timeout value of the lamp is at an initial timeout value. | 2012-06-21 |
20120153869 | Dimmable Power Supply - Various embodiments of a dimmable power supply are disclosed herein. For example, some embodiments provide a dimmable power supply including an output driver, a variable pulse generator and a load current detector. The output driver has a power input, a control input and a load path. The variable pulse generator includes a control input and a pulse output, with the pulse output connected to the output driver control input. The variable pulse generator is adapted to vary a pulse width at the pulse output based on a signal at the control input. The load current detector has an input connected to the output driver load path and an output connected to the variable pulse generator control input. The load current detector has a time constant adapted to substantially filter out a change in a load current at a frequency of pulses at the variable pulse generator pulse output. | 2012-06-21 |
20120153870 | Lighting Control Desk with Removable Touch Screen Device - A lighting control desk having a removable touch screen device is provided. The lighting control desk includes a multitude of surface mounted control devices for adjusting attributes of lights and other devices. The touch screen device enables a user to configure, control, and monitor information associated with the lights and other devices controlled by the lighting control desk when attached to and when detached from the lighting control desk. The lighting control desk includes a receptacle for receiving the touch screen device in the form of a cavity in the lighting desk's control surface or in the form of a docking station. The touch screen device can communicate with the lighting control desk via multiple wireless technologies and via a wired connection, such as a Universal Serial Bus (USB) connection. | 2012-06-21 |
20120153871 | Lighting Apparatus - A lighting assembly having a socket adaptor and a microprocessor for receiving user input and selectively actuating at least one LED based on that user input. The microprocessor is electrically connected to the socket adaptor. A processor-readable medium is in electrical communication with the microprocessor. An LED assembly comprising at least one plurality of LEDs is electrically connected to the microprocessor. A lens encloses the LED assembly and the microprocessor. An input device is electrically connected to the microprocessor to receive user input. | 2012-06-21 |
20120153872 | LIGHT EMITTING MODULE AND METHOD OF MANUFACTURING THE SAME - There is provided a light emitting module and a method of manufacturing the same. The light emitting module includes a circuit board, and a plurality of light emitting devices disposed on the circuit board, wherein the plurality of light emitting devices include at least one light emitting device having a driving voltage less than an average driving voltage of the plurality of light emitting devices and at least one of light emitting devices adjacent thereto having a driving voltage greater than the average driving voltage. In the light emitting module, variations in driving voltages between light emitting modules that may be caused due to driving voltage dissipation in a light emitting device may be minimized. | 2012-06-21 |
20120153873 | STRAIGHT-TUBE LED LAMP SWITCH DEVICE AND STRAIGHT-TUBE LED LAMP USING THE SAME - A straight-tube LED lamp switch device includes a first terminal protruding from a housing; an operating body having an operating portion that can receive a pressing operation into the housing; a second terminal that is brought into conduction with the first terminal by the pressing operation; and a torsion spring that restores the operating body to an initial state before the pressing operation. The housing has therein a housing portion that houses the operating body when the pressing operation is performed. The operating body is tilted by a pressing operation from at least one side of opposite directions with respect to a protruding direction of the first terminal. By the tilting, at least part of the operating portion is housed in the housing portion and the first terminal is brought into conduction with the second terminal. | 2012-06-21 |
20120153874 | ASSEMBLY AND METHOD FOR SUPPLYING ENERGY TO MOTORISED VEHICLES - To supply energy to motorised vehicles, a heat engine (SM) is provided to convert heat ( | 2012-06-21 |
20120153875 | CONTROLLABLE TRANSVERSE ROTATION ADAPTOR - Torsional loads can impart painful and potentially injurious shear stresses upon residual limb soft tissues in lower limb amputees. To protect the soft tissues, a controllable transverse rotation adapter (TRA) has been developed that permits rotation of the prosthetic socket relative to the prosthetic foot, relieving some of the rotational loads experienced by the residual limb, and controlling either the stiffness resisting the transverse rotational torque, or the torque. This TRA uses series elastic actuator (SEA) technology and includes a prime mover, a speed reduction device, and a torsion spring mounted in series. By measuring a displacement of the spring (e.g., using a strain gauge), motor current, and the motor shaft position, the load torque and position can be used to calculate actual stiffness or applied torque. The motor position is then adjusted relative to the load, to control the effective stiffness or torque. | 2012-06-21 |
20120153876 | Blower Apparatus having an Electric Drive Motor - The invention relates to a blower apparatus ( | 2012-06-21 |
20120153877 | SYSTEM FOR CAUSING TEMPERATURE RISE IN BATTERY - A battery temperature rise causing system has a converting unit for converting voltage of electric power held in one of a rechargeable battery and a capacitor and applies the converted voltage to the other one, and a control unit controlling the converting unit to alternately perform first transfer of electric power from the battery to the capacitor and second transfer of electric power from the capacitor to the battery while changing the first transfer for the second transfer each time the battery voltage reaches a lower limit and changing the second transfer for the first transfer each time the battery voltage reaches an upper limit, and to increase temperature of the battery due to heat generated by electric current flowing through the battery during the electric power transfer. | 2012-06-21 |
20120153878 | APPARATUS FOR ENERGY TRANSFER USING CONVERTER AND METHOD OF MANUFACTURING SAME - According to an aspect of the invention, a motor drive circuit includes a first energy storage device configured to supply electrical energy, a bi-directional DC-to-DC voltage converter coupled to the first energy storage device, a voltage inverter coupled to the bi-directional DC-to-DC voltage converter, and an input device configured to receive electrical energy from an external energy source. The motor drive circuit further includes a coupling system coupled to the input device, to the first energy storage device, and to the bi-directional DC-to-DC voltage converter. The coupling system has a first configuration configured to transfer electrical energy to the first energy storage device via the bi-directional DC-to-DC voltage converter, and has a second configuration configured to transfer electrical energy from the first energy storage device to the voltage inverter via the bi-directional DC-to-DC voltage converter. | 2012-06-21 |
20120153879 | APPARATUS FOR ENERGY TRANSFER USING CONVERTER AND METHOD OF MANUFACTURING SAME - According to an aspect of the invention, a motor drive circuit includes a first energy storage device configured to supply electrical energy, a bi-directional DC-to-DC voltage converter coupled to the first energy storage device, a voltage inverter coupled to the bi-directional DC-to-DC voltage converter, and an input device configured to receive electrical energy from an external energy source. The motor drive circuit further includes a coupling system coupled to the input device, to the first energy storage device, and to the bi-directional DC-to-DC voltage converter. The coupling system has a first configuration configured to transfer electrical energy to the first energy storage device via the bi-directional DC-to-DC voltage converter, and has a second configuration configured to transfer electrical energy from the first energy storage device to the voltage inverter via the bi-directional DC-to-DC voltage converter. | 2012-06-21 |
20120153880 | SYSTEM FOR CONTROLLING THE SPEED OF AN ELECTRIC FAN - The system has a driving circuit for the motor of the electric fan, coupled to the electrical system of a motor vehicle and having a plurality of controlled electronic switches, and an electronic control unit arranged to control the driving circuit in such a way as to cause the flow in the motor of a variable average current capable of producing a required speed of rotation, in accordance with a predetermined relationship or function. The control unit is designed to store a predetermined threshold of rotation speed, and to control the motor through the associated driving circuit in such a way that when the rotational speed of the motor exceeds the threshold the driving circuit causes electrical braking of the motor. | 2012-06-21 |
20120153881 | VECTOR CONTROL METHOD FOR ELECTRIC MOTORS - A vector control method for electric motors, characterized in that it comprises the steps of: supplying a reference vector (Vout | 2012-06-21 |
20120153882 | Method and Apparatus for Synchronization of Pulse Width Modulation - An inverter executing a PWM routine is configured to synchronize the switching periods of the PWM routine to an external signal. The external signal is generated, for example, by another inverter, a converter, or a high level controller. The external signal is preferably generated periodically, and the switching period is resynchronized to the external signal each time the external signal is received. Optionally, either the start time or the midpoint of the switching period may be aligned with external signal. Further, the external signal may be sent to multiple inverters. Preferably, a first portion of the inverters align the start time of their respective switching period to the external signal and a second portion of the inverters align the midpoint of their respective switching period to the external signal. | 2012-06-21 |
20120153883 | Method for Determining the Rotor Position of a Synchronous Machine Operated in Field-Oriented Manner - A method for determining the rotor position of a synchronous machine operated in field-oriented manner, which has an effective inductivity that is dependent on the rotor position,
| 2012-06-21 |
20120153884 | Integrated motor controller system - A controller for managing electrical power storage in a machine having an electric energy storage device and an electric motor comprises a gate drive stage for providing gate signals to one or more power electronics elements, as well as a control processor adapted to generate gate signals and supply the generated gate signals to the gate drive stage for controlling the one or more power electronics elements. The gate signals control the one or more power electronics elements to power the motor windings in a drive mode of operation and to charge the electric energy storage device in a charging mode of operation. In either mode, the motor windings are used as conductors or inductive elements. | 2012-06-21 |
20120153885 | CONTROL SYSTEM - A control system may be switched between a Pseudo-Derivative Feedforward (PDFF) control manner and a Proportional Integral (PI) control manner. The control system includes a first operational element, a second operational element, a feedback proportion controller, an integrator, and a feedforward proportion controller. The first operational element and the second operational element are used to perform calculation of addition or subtraction on an input signal, a feedback signal, and a feedforward signal. The integrator generates an integral signal. The feedback proportion controller generates a feedback proportion signal according to a first feedback gain or a second feedback gain. The feedforward proportion controller generates a feedforward proportion signal according to a first feedforward gain or a second feedforward gain. The control system may be switched among the different control manners through selection among the first feedback gain, the second feedback gain, the first feedforward gain, and the second feedforward gain. | 2012-06-21 |
20120153886 | METHOD AND CIRCUIT ARRANGEMENT FOR SENSORLESS ENGINE LOAD DETECTION AND FOR CONTROLLING THE MOTOR CURRENT IN ACCORDANCE WITH THE LOAD VALUE IN STEPPER MOTORS - A method and a circuit arrangement are provided which enable a mechanical load applied to the motor shaft of a stepper motor (M) or a load angle of the stepper motor to be detected in a sensorless manner. A method and circuit arrangement are also provided which enable the motor current(s) of a stepper motor to be controlled in accordance with the load value such that the load angle is as high as possible without risking step losses, in order to maintain the current consumption of the motor as low as possible. This is achieved according by evaluating the temporal duration of the ON- and the FD-phases during the chopper control of the motor. | 2012-06-21 |
20120153887 | Supercapacitor Materials and Devices - Capacitors containing novel electrodes and electrolytes are described. One electrode composition comprises an oxide of Mn and Fe in a Mn:Fe molar ratio of 3:1 to 5:1. Another electrode composition comprises an oxide comprising Ni, Co, and Fe; wherein the Ni and Co are present in a Ni/Co molar ratio in the range of 0.5 to 2 and a Fe and Ni are present in a Ni/Fe molar ratio in the range of 1.0 to 10. The resulting capacitors can be characterized by superior properties. Methods of forming the electrodes from gels are also described. An electrolyte comprising a Li salt in a carbonate solution, wherein the carbonate solution comprises 10-30% ethylene carbonate and 70-90% propylene carbonate is also described. | 2012-06-21 |
20120153888 | CHARGING/DISCHARGING SYSTEM FOR SOLAR LIGHT POWER GENERATOR IN SMART GRID ENVIRONMENT WITH REAL-TIME PRICING, DUPLEX CONVERTOR OF CHARGING/DISCHARGING SYSTEM, AND CHARGING/DISCHARGING METHOD FOR SOLAR LIGHT POWER GENERATOR - Provided are a charging and discharging system for a solar light power generator in a smart grid environment, a method of operating the same, and a duplex converter for charging and discharging electricity into/from a battery. The system includes: an electricity price monitoring part which collects electricity price information from an electric grid; an electricity charge amount monitoring part which collects electricity charge amount information of a battery; a charge and discharge determination part which determines whether electricity supplied from the electric grid is to be charged into the battery or whether electricity stored in the battery via the electric grid or the solar light power generator is to be discharged to the electric grid, based on the price information and the charge amount information; and a charging and discharging part including the battery, so that electricity is charged into or discharged from the battery based on the determination. | 2012-06-21 |
20120153889 | CHARGING CIRCUIT - A charging circuit includes a DC (Direct Current) power source, a rechargeable battery, and a switch circuit. The DC power source includes positive and negative output terminals, and the switch circuit is connected to and located between the DC power source and the rechargeable battery. The switch circuit comprises an arrangement of transistors and other components which permits the connection of the battery in any manner, and the normal charging or recharging of the battery notwithstanding the polarity of the battery terminals. | 2012-06-21 |
20120153890 | CONTROL DEVICE AND CONTROL METHOD OF VEHICLE - A control device of a vehicle which device makes a generated voltage of an alternator variable so that a state of charge SOC of a battery installed in the vehicle reaches a control target includes an idle stop permitting SOC setting unit for setting a battery state of charge SOC in which idle stop is permissible, and a battery SOC adjusting unit for reducing and resetting a control target of the battery state of charge SOC in a range beyond the idle stop permitting SOC when a predetermined operation condition holds. | 2012-06-21 |
20120153891 | PORTABLE ELECTRONIC APPARATUS AND CIRCUIT AND METHOD FOR CHARGING RECHARGEABLE BATTERY THEREOF - In a method of providing operating current to a portable electronic apparatus, a first connection terminal of the portable electronic apparatus is connected to a second connection terminal of a host, and interface type of the second connection terminal is determined. If the interface type is USB 2.0, the host provides a first operating current to the portable electronic apparatus for performing data read/write, and an internal rechargeable battery of the portable electronic apparatus provides a second operating current to the portable electronic apparatus. If the interface type is USB 3.0, the host provides a third operating current to the portable electronic apparatus for performing data read/write, and the third operating current selectively performs a charge process on the rechargeable battery. If the interface type is Wi-Fi, the rechargeable battery provides a fourth operating current to the portable electronic apparatus. | 2012-06-21 |
20120153892 | BATTERY TESTING AND CHARGING SYSTEM AND METHOD OF OPERATION THEREOF - A battery testing and charging system that includes at least one battery testing device and at least one battery charging device, wherein the battery testing device is removable from the battery charging device and wherein the battery testing device may communicate with a plurality of battery charging devices. Also, a method of testing and charging a battery that may be implemented using, for example, the above-described battery testing and charging system. | 2012-06-21 |
20120153893 | WIRELESS ENERGY TRANSFER FOR SUPPLYING POWER AND HEAT TO A DEVICE - Described herein are improved capabilities for a source resonator having a Q-factor Q | 2012-06-21 |
20120153894 | WIRELESS ENERGY TRANSFER AND CONTINUOUS RADIO STATION SIGNAL COEXISTENCE - This disclosure provides systems, methods and apparatus for wirelessly transmitting power while avoiding interference with wireless communication devices. In one aspect a wireless power transmitter apparatus is provided. The wireless power transmitter apparatus includes a transmit circuit configured to wirelessly transmit power at a transmit frequency to a first receiver device. The wireless power transmitter apparatus further includes a controller circuit configured to reduce a level of emission of the transmit circuit at a determined frequency during a period of time based on information about an information signal transmitted to a second receiver device substantially at the determined frequency to be received within the period of time. | 2012-06-21 |
20120153895 | System And Method For Controlling AC Line Current And Power During Vehicle Battery Charging - An automotive vehicle power system includes a battery charger having an input and output. The battery charger receives electrical energy via the input when the input is electrically connected with an electrical power source. The battery charger also alters at least one of a voltage set point and current provided at the output such that a power associated with the energy received from the power source remains approximately equal to a power target as a voltage associated with the energy received from the power source varies. | 2012-06-21 |
20120153896 | METHOD AND SYSTEM FOR CO-OPERATIVE CHARGING OF ELECTRIC VEHICLES - A method and system provide for the cooperative charging of electric vehicles. By using power line communications, chargers of the electric vehicles who are serviced by the same distribution transformer can form self-contained local area networks due to the nature of power line communications. After the chargers of the electric vehicles are coupled to one another through power line communications, they can form a token ring network. According to this token ring network, a predetermined number of tokens can be assigned within the token ring network for permitting chargers with tokens to charge respective electric vehicles while chargers without tokens must wait until they receive a token to initiate charging. | 2012-06-21 |
20120153897 | E-Z cord - The invention provides a retractable cell phone charger cord comprising a product line of cell phone chargers, each featuring an internal, spring-loaded reel to take up the cord, designed for use with a standard, 110-volt household electrical outlet, or a 12-volt adapter for use in an automobile. The charger casing is fabricated of injection-molded thermoplastic material. The charging cord and phone-plug emerge from a slot or recess in the bottom of the charger unit. In order to release the mechanism and reel-in or retract the cord, the exterior of the charger unit is equipped with a simple, spring-loaded release button. | 2012-06-21 |
20120153898 | METHOD AND SYSTEM FOR CHARGING A SERIES BATTERY - Some embodiments of the present invention provide a system for charging a series battery, wherein the series battery is comprised of a set of banks which are connected in series, so that the same charging current passes through each bank. During the charging process, the system measures a voltage across each bank in the set of banks. The system then compares the measured voltage with a target voltage for each bank, and adjusts the charging process based on results of the comparisons between the measured voltage and the target voltage. | 2012-06-21 |
20120153899 | Multiple battery charger with automatic charge current adjustment - Systems and methods using the same to achieve a multiple battery charger with automatic charge current adjustment have been disclosed. The invention maintains equilibrium of charge levels during charge and discharge between all of the multiple batteries. For each battery a charger block comprising a unidirectional means and a current source for charging is assigned. The on-resistance of each charger block is automatically splitting the charge current available to the various batteries thus maintaining an equilibrium of charge levels of the batteries, i.e. supporting the battery with the lowest charge level with the highest charge current until equilibrium is reached. | 2012-06-21 |
20120153900 | TWO-WAY SWITCHING REGULATOR - Two-way voltage switching may be performed using a single switch mode regulator circuit such that only control signals and feedback signals are used to select the direction of the power path. Such voltage switching may be between a battery and a supply rail that operate at different voltage levels. The voltage level of the battery's output may be converted by the regulator to the voltage level of the supply rail such that at least a portion of the power drawn by the system from the supply rail is from the rechargeable battery. To charge the rechargeable battery from the supply rail, the voltage of the supply rail may be converted to the voltage level of the battery using the same switch mode regulator. To select between discharging the battery into the supply rail or charging the battery from the supply rail, no power path circuitry need be switched. | 2012-06-21 |
20120153901 | Method of Withdrawing Heat from a Battery Pack - A method for withdrawing heat from a battery pack is provided, wherein the heat is transferred from at least one electrode of each cell comprising the battery pack, via an electrically and thermally conductive tab, through a current collector plate and through a thermal interface layer to a temperature control panel that is coupled to an external temperature control system. | 2012-06-21 |
20120153902 | Controlled Regeneration of Solid Electrolyte Interface for Prolonged Cycling of Lithium Batteries - A system implements a first charging method or a second charging method during one or more charge cycles of a battery. The first charging method includes a first voltage charging level and the second charging method includes a second voltage charging level that is higher than the first charging level. | 2012-06-21 |
20120153903 | PROTECTOR OF RECTIFIER AND WIRELESS POWER RECEIVER INCLUDING PROTECTOR - A protector that protects a rectifier, and a wireless power receiver including the protector are provided. In one embodiment, a protector for an electronic device may include: a switch configured to control current flow to a rectifier of the electronic device; and a switch controller configured to: compare, with a predetermined threshold value, a voltage difference between an output voltage of the rectifier and a voltage of the electronic device; and transmit a control signal to the switch (i) to discontinue current flow to the rectifier when the voltage difference is greater than the predetermined threshold value, and (ii) to enable current flow to rectifier when the voltage difference is less than or equal to the predetermined threshold value. | 2012-06-21 |
20120153904 | RESONANT COMMUTATION SYSTEM FOR EXCITING A THREE-PHASE ALTERNATOR - An alternator has a field coil that produces a magnetic field which induces electricity in an coil arrangement. A field coil excitation system includes a generator with an output coil assembly for producing alternating electricity. A rectifier converts the alternating electricity into voltage and direct current at two nodes. A capacitor, between the nodes, has capacitance that forms a resonant circuit with inductance of the output coil assembly. Due to that resonant circuit, the voltage and direct current oscillate in a predefined phase relationship. A switch and the field coil are connected in series between the nodes. A controller renders the switch conductive for a time period specified by a received control signal. The switch is rendered non-conductive at the first occurrence of a minimum current level after the time period ends. The predefined phase relationship enables the minimum current level to be detected by sensing the voltage. | 2012-06-21 |
20120153905 | ELECTRICAL ENERGY GENERATION DEVICE - A device for generating electrical energy from the heat dissipated by a heat source, comprising: a capacitor comprising two electrodes between which a ferroelectric material is present, said capacitor being arranged so as to be positioned to capture all or part of the heat dissipated by said heat source; a capacitive element a first electrode of which is connected to a first electrode of said capacitor; a recovery circuit interposed between the second electrode of said capacitor and the second electrode of the capacitive element, and able to have the current flowing between said second electrodes pass through it. a mechanism adapted to move the capacitor with respect to the heat source, said mechanism having at least one arm able to move between two positions, the capacitor being closer to the heat source in one of the two positions. | 2012-06-21 |
20120153906 | METHOD FOR SCALING A DRIVE SIGNAL AND CIRCUIT THEREFOR - In accordance with an embodiment, a converter includes a circuit and method for scaling a drive signal. The converter determines the power at its input and scales a drive signal in accordance with the input power. In accordance with another embodiment the converter determines the power at its output and scales the drive signal in accordance with the output power. | 2012-06-21 |
20120153907 | Dual-Stage Power Conversion - A circuit converts an input voltage to an output voltage. The circuit includes a first stage voltage converter that receives the input voltage and converts the input voltage. The first stage voltage converter includes a first buck converter having a double rail output: a first rail at a high intermediate voltage and a second rail at a low intermediate voltage. The circuit also includes a second stage voltage converter that receives the output rails and produces the output voltage. | 2012-06-21 |
20120153908 | POWER MANAGEMENT CIRCUIT AND ELECTRONIC DEVICE EMPLOYING THE SAME - A power management circuit for managing power of an electronic device includes a regulator and a protection circuit. The regulator converts an input voltage into a corresponding rated voltage and includes an enable pin and an output pin. The enable pin receives a voltage signal to enable or disable the regulator, and the output pin selectively outputs the rated voltage. When the electronic device is implemented as a slave universal serial bus (USB) device and the enable pin receives a low voltage signal, the regulator is disabled, and the protection circuit receives an output voltage. When the electronic device is implemented as a USB host and the enable pin receives a high voltage signal, the regulator is enabled, and the output protection circuit outputs the rated voltage. | 2012-06-21 |
20120153909 | HYBRID FAST-SLOW PASSGATE CONTROL METHODS FOR VOLTAGE REGULATORS EMPLOYING HIGH SPEED COMPARATORS - Voltage regulator circuits and methods implementing hybrid fast-slow passgate control circuitry are provided to minimize the ripple amplitude of a regulated voltage output. In one aspect, a voltage regulator circuit includes a comparator, a first passgate device, a second passgate device, and a bandwidth limiting control circuit. The comparator compares a reference voltage to a regulated voltage at an output node of the voltage regulator circuit and generates a first control signal on a first gate control path based on a result of the comparing. The first and second passgate devices are connected to the output node of the regulator circuit. The first passgate device is controlled in a bang-bang mode of operation by the first control signal to supply current to the output node. The bandwidth limiting control circuit has an input connected to the first gate control path and an output connected to the second passgate device. The bandwidth limiting control circuit generates a second control signal based on the first control signal, wherein the second control signal is a slew rate limited version of the first control signal, and wherein the second passgate is controlled by the second control signal to supply current to the output node. | 2012-06-21 |
20120153910 | DUAL-LOOP VOLTAGE REGULATOR ARCHITECTURE WITH HIGH DC ACCURACY AND FAST RESPONSE TIME - Dual-loop voltage regulator circuits and methods in which a dual-loop voltage regulation framework is implemented with a first inner loop having a bang-bang voltage regulator to achieve nearly instantaneous response time, and a second outer loop, which is slower in operating speed than the first inner loop, to controllably adjust a trip point of the bang-bang voltage regulator to achieve high DC accuracy. | 2012-06-21 |
20120153911 | SYSTEMS AND METHODS FOR SWITCHED MODE POWER AMPLIFICATION - Systems and methods for switched mode power amplification are disclosed herein. A circuit is provided comprising an amplifier network, a DC translation stage for receiving input voltage from the amplifier network and for providing an output voltage to a voltage boost circuit, and a feedback network for providing feedback from the voltage boost circuit to the amplifier network. | 2012-06-21 |
20120153912 | Controller for a Power Converter and Method of Operating the Same - A controller, power converter and method of controlling a power switch therein to improve power conversion efficiency at low output current. In one embodiment, the power converter includes a power switch coupled to a source of electrical power, and a controller coupled to a control terminal of the power switch and to an output of the power converter. The controller is configured to control a conductivity of the power switch at a selected switching frequency from a set of discrete switching frequencies as a function of an output characteristic of the power converter. | 2012-06-21 |
20120153913 | METHOD FOR IMPROVING VOLTAGE IDENTIFICATION TRANSIENT RESPONSE AND VOLTAGE REGULATOR - An exemplary method for improving voltage identification (VID) transient response is adapted to a voltage regulator and includes steps of: continuously sensing an inductor current of the voltage regulator to thereby output a current sense signal; during a steady state operation period, sampling the current sense signal to thereby obtain a sampling result for providing a droop control signal; after entering a VID transient period from the steady state operation period, holding the sampling result for providing the droop control signal; and taking the droop control signal as a consideration factor of producing a pulse width modulation signal to regulate an output voltage of the voltage regulator. | 2012-06-21 |
20120153914 | LOAD CONTROL APPARATUS - A load control apparatus is provided in which a circuit of detecting an overcurrent can be correctly operated even if a first capacitor (C | 2012-06-21 |
20120153915 | BUCK OR BOOST DC-DC CONVERTER - A control circuit for controlling a DC-DC converter, with the converter including an inductor and associated switching circuitry, with the switching circuitry including a first transistor switch connected intermediate an input voltage terminal and a first terminal of the inductor, a second transistor switch connected intermediate the first terminal of the inductor and a circuit reference, a third transistor switch connected intermediate a second terminal of the inductor and an output voltage terminal and a fourth transistor switch connected intermediate the second terminal of the inductor and the circuit reference. Mode control circuitry responsive to separate buck and boost comparators and configured to cause the switching circuitry to switch among a pass phase where the first and second transistor switches are ON, a boost phase where the first and third transistors are ON and a buck phase where the second and third transistors are ON, with first selected switching periods beginning operation in the pass phase followed, in response to an output of the buck comparator, with operation in the buck phase and with second selected switching periods beginning operation in the pass phase followed, in response to an output of the boost comparator, to operation in the boost phase. | 2012-06-21 |
20120153916 | DIGITAL BOOST FEEDBACK VOLTAGE CONTROLLER FOR SWITCH-MODE POWER SUPPLIES USING PULSE-FREQUENCY MODULATION - A controller produces high-side and low-side control signals. The high and low-side signals are used to switch high-side and low-side transistors in the power stage to control the voltage across the power stage output capacitor of the power stage. A boost feedback charge pump receives the low or high-side signal to increase the charge on a charge pump output capacitor. The controller is configured to send Pulse Frequency Modulation (PFM) high and low-side signals that control the voltage on the power stage output capacitor and charge the charge pump output capacitor. The controller is also configured to send boost feedback (BFB) high and low-side signals that charge the boost feedback capacitor, but are designed to not significantly change the charge on the power stage output capacitor. | 2012-06-21 |
20120153917 | LOW-TO-MEDIUM POWER SINGLE CHIP DIGITAL CONTROLLED DC-DC REGULATOR FOR POINT-OF-LOAD APPLICATIONS - A DC-DC converter for generating a DC output voltage includes: a digitally controlled pulse width modulator (DPWM) for controlling a switching power stage to supply a varying voltage to an inductor; and a digital voltage feedback circuit for controlling the DPWM in accordance with a feedback voltage corresponding to the DC output voltage, the digital voltage feedback circuit including: a first voltage controlled oscillator for converting the feedback voltage into a first frequency signal and to supply the first frequency signal to a first frequency discriminator; a second voltage controlled oscillator for converting a reference voltage into a second frequency signal and to supply the second frequency signal to a second frequency discriminator; a digital comparator for comparing digital outputs of the first and second frequency discriminators and for outputting a digital feedback signal; and a controller for controlling the DPWM in accordance with the digital feedback signal. | 2012-06-21 |
20120153918 | Protection Circuit for Protecting a Half-Bridge Circuit - The present invention relates to a protection circuit for protecting a half-bridge circuit. The protection circuit detects an incorrect response of the half-bridge by monitoring the current of a first switch at a series resistor of a second switch. The protection circuit has a detector for detecting the voltage across the resistor and an evaluation circuit which is designed in such a manner that it evaluates an output signal from the detector after the first switch has been switched on and provides a fault signal at an output when the voltage across the resistor is greater than the threshold voltage. | 2012-06-21 |
20120153919 | Switching Mode Power Supply Control - A method for controlling a switching converter is disclosed whereby the switching converter is configured to convert an input voltage into an output voltage supplied to a load in accordance with a switching signal, The switching converter is configured to operate in a pulse width modulation mode or, alternatively, in a pulse frequency modulation mode. When operating in the pulse width modulation mode, generating, as the switching signal, a pulse width modulated (PWM) signal of a pre-defined constant switching frequency. The PWM signal has a duty cycle that is regulated such that the output voltage of the switching converter matches, at least approximately, a desired output voltage under the condition that the duty cycle being regulated such that it does not fall below a predefined minimum duty cycle. The output voltage is monitored and switched over to the pulse frequency modulation mode when the output voltage exceeds a predefined first threshold. The method further comprises, when operating in the pulse frequency modulation mode, monitoring the output voltage and generating, as the switching signal, a series of pulses of a predefined constant pulse length. A pulse is generated each time the output voltage falls to a predefined second threshold and monitoring the frequency of the switching signal and switching to the pulse width modulation mode when the frequency of the switching signal exceeds a predefined frequency threshold. | 2012-06-21 |
20120153920 | SYSTEMS FOR INDIRECT AVERAGE CURRENT MEASUREMENT - One example of the invention relates to a power system. The power system can include a power converter configured to convert an input voltage to an output voltage for providing power at an output thereof to which a load is connectable. A measurement system can include measurement circuitry configured to measure an average of an accessible current in the power converter and derive an average measurement of another current in the power converter based on timing control signals used to control operation of the power converter. | 2012-06-21 |
20120153921 | METHODS AND APPARATUSES FOR COMBINATIONS OF CURRENT FEEDBACK FOR FREQUENCY COMPENSATION, OVERLOAD DETECTION, AND SUPER OVERLOAD DETECTION IN SWITCHING POWER CONVERSION - A single replica current is proportional to current through a main switch of a switching power converter. This replica current may be used for current compensation, detection and response to an overload, detection and response to a super-overload, and combinations thereof. An input voltage is switchably coupled to an output signal generating a load current responsive to a switch control. A replica switch generates a replica current proportional to the load current. A ramp modulation signal may be generated. A voltage ramp of the ramp modulation signal may be adjusted in response to the replica current. A feedback difference signal is compared to the ramp modulation signal to generate a comparison output. Comparison of an overload reference voltage to a replica voltage proportional to the replica current generates an overload signal. The switch control is generated responsive to the comparison output and may be modified responsive to the overload signal. | 2012-06-21 |
20120153922 | CONTROL FOR REGULATOR FAST TRANSIENT RESPONSE AND LOW EMI NOISE - Methods and circuits for power supply arrangement and control are disclosed herein. In one embodiment, a switching regulator can include: (i) a filter network coupled to an output terminal, where an output voltage is generated at the output terminal from an input source; (ii) an active switch to connect the input source to the filter network by periodically operating between on and off states over a switching period, where a duty cycle of the on state relative to the switching period is modulated based on a PWM control signal; (iii) a comparator receiving an output feedback signal, a hysteresis signal, and a reference level, and providing the PWM control signal therefrom; and (iv) a hysteresis programming circuit generating the hysteresis signal, and a ramp control signal, where the hysteresis signal is programmed based on conditions at the input source and the output voltage to achieve a pseudo constant frequency operation. | 2012-06-21 |
20120153923 | METHOD AND APPARATUS FOR SUPPLYING POWER TO 300 PIN MSA 40GB TRANSPONDER - A method and an apparatus for supplying power to a 300 PIN MSA 40 Gb TRANSPONDER ( | 2012-06-21 |
20120153924 | Voltage Regulator Soft-Start Circuit - Techniques are disclosed for providing an improved start-up (soft-start) circuit for use with voltage regulators, and an improved regulator start-up methodology. For example, an apparatus comprises a voltage regulator circuit and a start-up circuit operatively coupled to the voltage regulator circuit. The start-up circuit is configured to provide a current signal, during a start-up period, that generates a reference voltage at a reference input of the voltage regulator circuit such that the reference voltage ramps up at a rate substantially equal to a ramp-up rate of a supply voltage coupled to the start-up circuit and the voltage regulator circuit. | 2012-06-21 |
20120153925 | VOLTAGE ADJUSTMENT SYSTEM - A voltage adjustment system includes a power supply for providing an initial voltage signal, a plurality of buck converters for receiving the initial voltage signal and generating one adjustable output voltage signal respectively, a microcontroller for determining one adjustable output voltage signal to output and determining whether a variable voltage signal generated by a buck converter that outputs the adjustable output voltage signal is positive or negative, a display unit for displaying value of the adjustable output voltage signal that is outputted, a plurality of voltage control units corresponding to the plurality of buck converters, and a voltage variation adjustment circuit including two buttons. The variable voltage signal is added to the adjustable output voltage signal generated by the same buck converter. Selection of the two buttons causes the microcontroller to adjust absolute value of the variable voltage signal generated by the buck converter through the corresponding voltage control unit. | 2012-06-21 |
20120153926 | TERMINAL DEVICE AND SUPPLY CURRENT CONTROL METHOD - Provided are a terminal device and a supply current control method which enable reliable charging with a current obtained by power generation. In a terminal device ( | 2012-06-21 |
20120153927 | FAULT CURRENT LIMITER WITH SATURATED CORE - A three-phase current limiter ( | 2012-06-21 |
20120153928 | POWER CONTROLLER SYSTEM - A power controller system configured to electrically supply a load via a circuit is provided. The system comprises, a switching device provided in an electrical pathway for supplying current to the load, a controller configured to open the switching device when a current through or voltage across the switching device exceeds a predetermined level; and an electrical pathway provided parallel to the load to enable load current to continue to flow through the parallel electrical pathway and the load when the switching device is open to dissipate inductive energy stored in the circuit connecting the parallel electrical pathway to the load. | 2012-06-21 |
20120153929 | DC-DC CONVERTER, MODULE, POWER SUPPLY DEVICE, AND ELECTRONIC APPARATUS - A controller CT | 2012-06-21 |
20120153930 | LOAD CONTROL DEVICE - A load control device includes: a main switching unit which has a main switch element connected in series to an AC power source and a load and controls the supply of power to the load; a manipulation switch that outputs a start-up signal for starting at least the load; a control unit which controls the opening and closing of the main switching unit; a first power source unit supplying a stable voltage to the control unit; and a second and a third power source unit each supplying power to the first power source unit. The load control device is characterized in that upon receiving the start-up signal, the control unit outputs an initial drive signal, for closing the main switch element, to the main switching unit before a power source supplying power to the first power source unit is switched from the second to the third power source unit. | 2012-06-21 |
20120153931 | ELECTRONIC CURRENT TRANSFORMER BASED ON COMPLETE SELF-EXCITATION POWER SUPPLY - An electronic current transformer (ECT) based on complete self-excitation power supply is provided. The ECT includes an energy-obtaining coil, a rapid voltage-stabilizing circuit and an Analog/Digital (A/D) converting circuit. The output of the energy-obtaining coil is connected with the input of the voltage-stabilizing circuit. The output of the voltage-stabilizing circuit is connected with the control end of the A/D converting circuit. The ECT uses two branch circuits to obtain energy directly from the magnetic field of a bus bar to be measured respectively, synthesizes two output waveforms to fill the wave trough of each other, and reduces the pulse of direct current. In this way, the trough voltage of the synthesized wave is higher than the required stabilizing value of direct voltage and it directly meets the input requirement of the stabilizing module of the voltage-stabilizing circuit. As a result, the ECT can activate the A/D converting circuit rapidly. The present invention has solved the delay problem caused by using a single coil to obtain energy, and has characteristics of small wake-up current, rapid activation and wide application. The ECT can omit additional laser power supply device, simplify the architecture, improve the reliability of operation and service life, and reduce the cost. | 2012-06-21 |
20120153932 | VACUUM CAPACITOR-VOLTAGE-TRANSFORMER - [Task] The present invention aims to provide a vacuum capacitor instrument voltage transformer by which current and voltage can be much precisely measured. | 2012-06-21 |
20120153933 | METHOD AND SYSTEM FOR PRODUCING A SIGNAL WITH A POWER CHANGE DETERMINED BY A PHASE OR FREQUENCY DIFFERENCE BETWEEN TWO SIGNAL SOURCES - A system and method for determining the linearity of a device-under-test combine a first periodic signal and a second periodic signal to produce a combined signal, wherein the second periodic signal has at least one of a phase difference and a frequency difference with respect to the first periodic signal, and applying the combined signal to an input of the device-under-test. The linearity of the device-under-test is determined from an output signal of the device-under-test based on the at least one of the phase difference and frequency difference between the first periodic signal and the second periodic signal. | 2012-06-21 |
20120153934 | VOLTAGE AND CURRENT SAMPLING DEVICE - A voltage and current sampling device, including a box, a current transformer, and a voltage acquisition unit, including a voltage collection sub-unit, and a voltage/frequency conversion sub-unit. The current transformer is disposed in the box. A phase line passes through the center of the current transformer. The current transformer outputs a current signal via a current signal output end. The voltage collection sub-unit is disposed on the phase line whereby acquiring a real-time voltage signal and converting the real-time voltage signal into a first voltage sampling signal. The voltage/frequency conversion sub-unit is connected to the voltage collection sub-unit whereby converting the first voltage sampling signal into a first frequency signal. | 2012-06-21 |
20120153935 | Systems, Methods, and Devices for Demodulating Induction Motor Instantaneous Rotor Slot Harmonic Frequency - A method and apparatus to dynamically and adaptively demodulate induction motor instantaneous rotor slot harmonic frequency for line-connected squirrel-cage polyphase induction motors. The instantaneous rotor slot harmonic frequency carries essential information on the instantaneous rotor speed. Based on a correlation between the motor's input power and its rotor slot harmonic frequency, a dynamically varying carrier frequency is computed and used in a rotor slot harmonic frequency detector. The rotor slot harmonic frequency detector is based on a superheterodyne principle. It contains a generalized linear-phase low-pass filter, whose bandwidth is estimated dynamically by a filter bandwidth estimator. The rotor slot harmonic frequency detector also includes a latency compensator, which receives the dynamically varying carrier frequency signal and synchronizes it with the output of a frequency demodulator. | 2012-06-21 |
20120153936 | READING CIRCUIT FOR A MAGNETIC FIELD SENSOR WITH SENSITIVITY CALIBRATION, AND RELATED READING METHOD - A reading circuit for a magnetic-field sensor, generating an electrical detection quantity as a function of a detected magnetic field and of a detection sensitivity, is provided with an amplification stage, which is coupled to the magnetic-field sensor and generates an output signal as a function of the electrical detection quantity and of an amplification gain. In particular, the amplification gain is electronically selectable, and the reading circuit is moreover provided with a calibration stage, integrated with the amplification stage and configured so as to vary a value of the amplification gain in such a way as to compensate a variation of the detection sensitivity with respect to a nominal sensitivity value. | 2012-06-21 |
20120153937 | BIASING CIRCUIT FOR A MAGNETIC FIELD SENSOR, AND CORRESPONDING BIASING METHOD - Described herein is a biasing circuit for a magnetic-field sensor; the magnetic-field sensor is provided with a first detection structure, which generates a first electrical detection quantity as a function of a first component of an external magnetic field, and a second detection structure, which generates a second electrical detection quantity as a function of a second component of an external magnetic field. The biasing circuit electrically supplies the first detection structure and the second detection structure in respective biasing time intervals, at least partially distinct from one another, which preferably do not temporally overlap one other. | 2012-06-21 |
20120153938 | ANGLE SENSOR - Disclosed is an angle sensor, which is capable of accurately measuring an angle of a steering shaft by selecting an optimum gear ratio between main and subsidiary gears constituting the angle sensor, measures a rotation amount of a vehicle steering shaft, and includes a ring-shaped main gear rotating along with the steering shaft, a first subsidiary gear rotated by rotation of the main gear and having a magnet coupled to a surface thereof, and a magnetic device detecting a change in magnetic field of the magnet and outputting data on a rotation amount, so that the first subsidiary gear rotates four times while the main gear rotates once, and a value of a scale factor is minimized during a process of acquiring valid data for measuring the angle of the main gear and thereby an error of a measured value is minimized. | 2012-06-21 |
20120153939 | MAGNETIC FIELD MEASURING DEVICE - A magnetic field measuring device includes a support base, a measuring mechanism, and a displacement sensor. The measuring mechanism is positioned on the support base, and includes a mounting plate, a swing arm, a connecting member, an elastic member, and a measuring magnet. The mounting plate is connected to the support base. The swing arm is rotatably positioned on the mounting plate. The elastic member is positioned between the connecting member and the swing arm. The measuring magnet is connected to the swing arm, opposite to the support base. The displacement sensor is positioned on the support base, opposite to the swing arm. | 2012-06-21 |
20120153940 | Magnetically Coupled Rotary Magnetic Encoder with Angle Error Reduction - A rotary magnetic encoder assembly of noncontact or “contactless” construction having an internally disposed first exciter or sensor magnet magnetically coupled to an externally disposed second application or drive magnet attached to an encoder shaft that rotates the sensor magnet substantially in unison therewith during encoder shaft rotation. The sensor magnet is rotatively supported by a friction reducer that is a bearing arrangement that provides point bearing contact preventing stiction and reducing dynamic friction of the sensor magnet minimizing angle error and helping to prevent “Quiver.” In one embodiment, the friction reducer is a spherical ball bearing. In another embodiment, the friction reducer is a thrust bearing that includes a spindle carrying the sensor magnet. A magnetic anchor can be disposed between the sensor magnet and drive magnet to help keep the sensor magnet in point bearing contact during rotation further minimizing angle error. | 2012-06-21 |
20120153941 | NONDESTRUCTIVE TEST OF A SEALING MEMBER - A device for inspecting an annular sealing wiper extending at the surface of a bladed-wheel drum of a rotor. The device includes a carriage including at least two guide wheels and carrying a probe situated in a location such that, when the carriage is in position, the probe is positioned facing an edge of the wiper for inspection and at a determined distance therefrom. | 2012-06-21 |
20120153942 | Stray-Field Sensor Circuit and Method - A sensor circuit is configured and operated in the presence of interference. In connection with various example embodiments, a stray magnetic field is sensed with current sensors that also respectively sense current-induced magnetic fields generated by current flowing in opposing directions through different portions of a conductor. The current-induced magnetic fields and the stray magnetic field are coplanar, and the current sensors are arranged such that a portion of the output from each current sensor corresponding to the stray magnetic field is canceled when the sensor outputs are combined. | 2012-06-21 |
20120153943 | METHOD AND APPARATUS FOR MEASURING AN OBJECT OF INTEREST - This invention relates to a method of and apparatus for, measuring an object of interest. The apparatus ( | 2012-06-21 |
20120153944 | METHOD FOR INSPECTING AN AUSTENITIC STAINLESS STEEL WELD - An object of the present invention is to provide a method for inspecting the presence or absence of a foreign metallic material mixed into an austenitic stainless steel material weld with more satisfactory accuracy. | 2012-06-21 |
20120153945 | Hall Effect Sensor with Reduced Offset - A Hall element sensor circuit in one embodiment includes a Hall element, a Hall element source, a switch matrix operatively connected to the Hall element and the Hall element source to establish a spinning current in the Hall element and to receive a Hall element signal from the Hall element based upon the spinning current, a front end amplifier including a first input operatively connected to a first switch matrix output and a second input operatively connected to a second switch matrix output, and at least one voltage source operatively connected to the front end amplifier at a location in the Hall element sensor circuit between the switch matrix and the front end amplifier. | 2012-06-21 |
20120153946 | Magnetic Field Sensor - A sensor circuit is configured for operation under conditions susceptible to misalignment or movement. In connection with various example embodiments, an alignment-tolerant sensor arrangement includes a reference component and first and second magnetic sensors. The reference component influences a magnetic field as a function of a position of the reference component, such as via the positioning of a magnetic type of component. The first magnetic sensor is aligned with a first magnetic field sensitivity direction, and exhibits an electrical response to the presence of the magnetic field. The second magnetic sensor is aligned with a first magnetic field sensitivity direction and is configured to exhibit an electrical response to the presence of the magnetic field. The first and second magnetic field sensitivity directions being offset from one another to facilitate detection of magnetic fields at different relative alignments between the reference component and the first and second magnetic sensors. | 2012-06-21 |
20120153947 | MAGNETORESISTIVE ANGLE SENSORS - Magnetoresistive angle sensors, sensor systems and methods are disclosed. In an embodiment, a magnetoresistive angle sensor includes a first plurality of conductors arranged in parallel with one another in a first plane to form a first array; a second plurality of conductors arranged in parallel with one another in a second plane to form a second array, the second plane being different from and spaced apart from the first plane, and the second plurality of conductors being orthogonally arranged with respect to the first plurality of conductors; and at least one magnetoresistive element disposed between the first plane and the second plane. | 2012-06-21 |
20120153948 | APPARATUS AND METHOD FOR INFLUENCING AND/OR DETECTING MAGNETIC PARTICLES IN A FIELD OF VIEW - The present invention relates to an apparatus ( | 2012-06-21 |
20120153949 | APPARATUS AND METHOD FOR INFLUENCING AND/OR DETECTING MAGNETIC PARTICLES - The present invention relates to an MPI (Magnetic Particle Imaging) apparatus and a method for influencing and/or detecting magnetic particles in a field of view. Rather than moving the FFP (field free point) along a single, time-consuming high density trajectory it is proposed to use a number of low density trajectories with travelling phase, wherein each of said low density trajectories has the form of a closed curve differently located within the field of view. | 2012-06-21 |
20120153950 | RF SHIMMED MRI SLICE EXCITATION ALONG A CURVED SPOKE K-SPACE TRAJECTORY - A radio-frequency (RF) shimming apparatus ( | 2012-06-21 |
20120153951 | METHOD FOR OPTIMIZATION OF A MULTI-CHANNEL COIL - The invention relates to a method for optimization of the performance of a multi-channel coil ( | 2012-06-21 |