44th week of 2013 patent applcation highlights part 22 |
Patent application number | Title | Published |
20130285591 | CONTROL DEVICE FOR THREE-PHASE ROTATING MACHINE - In a control device for a three-phase rotating machine with first and second winding sets, a current feedback computing section includes a current sum controller and a current difference controller. The current sum controller multiplies, by a sum gain, an error between a sum of current command values for alternating currents output from first and second inverters and a sum of sensed current values and computes a sum of voltage command values. The current difference controller multiplies, by a difference gain, an error between a difference of the current command values and a difference between the sensed current values, and computes a difference of voltage command values. In a variable-responsiveness mode, a gain ratio between the sum gain and the difference gain is varied according to a reference frequency such that the current sum controller and the current different controller are different in responsiveness. | 2013-10-31 |
20130285592 | MEDIUM VOLTAGE SOFT STARTER AND INDUCTION MOTOR KIT - The present invention includes an induction motor soft starter that includes a bypass contactor loop on which is disposed two anti-parallel connected SCRs and a current limiting reactor that limits the current rise during the switching on of the SCRs. | 2013-10-31 |
20130285593 | CARD-STYLE SOLAR CHARGER AND METHOD FOR MANUFACTURING THE SAME - A card-style solar charger includes a flexible substrate, a solar cell, and a transparent cover membrane which are stacked up in bottom-to-top order and is characterized in that the card-style solar charger has an output end electrically connected to a connector of a transmission cable for supplying electric power. The card-style solar charger comes with different output ends to suit different contacts of a connector. Due to its card-like appearance and its way of generating solar power, the card-style solar charger is portable, lightweight, compact, easy to use, capable of instant charging, and widely applicable. | 2013-10-31 |
20130285594 | ELECTRONIC DEVICE AND CHARGING METHOD - An electronic device includes a main body, a solar panel rotatably coupled to the main body, a driving mechanism for rotating the solar panel to different orientations, a detecting unit for detecting intensities of the sunlight received in different orientations, and a processor. The processor compares the detected intensities to determine a greatest intensity, and controls the driving mechanism to rotate the solar panel to an optimal orientation for a short period of time. A charging method implemented by the electronic device is also provided. | 2013-10-31 |
20130285595 | PORTABLE SOLAR PANEL POWER SOURCE - An apparatus and method for portable solar panel assemblies configured to enable the unit to be transported by multiple means in order to provide both grid tied and off grid power as needed. Solar panel assemblies are configured to have a range of rotation of approximately 0 to 25 degrees in two directions to allow efficient sunlight capture. The solar panel assembly in the closed position will allow for more compact and aerodynamic profile when being transported. | 2013-10-31 |
20130285596 | BOOSTING INPUT POWER - In one implementation, an input power management component receives an input power, and determines whether an input current and voltage satisfies predetermined thresholds. A boost component generates a boost output voltage using the input voltage if the input current satisfies a predetermined current threshold, and a step-down charging component converts the boost output voltage to a voltage for charging a battery and system power management. | 2013-10-31 |
20130285597 | Zinc-Air Battery - A zinc-air cell, a battery which is a low weight, low volume, or high energy system, or a combination thereof, and an apparatus for recharging the same are disclosed. | 2013-10-31 |
20130285598 | MULTIPLE CELL BATTERY CHARGER CONFIGURED WITH A PARALLEL TOPOLOGY - A multiple cell battery charger configured with a parallel topography is disclosed. In accordance with an important aspect of the invention, the multiple cell battery charger requires fewer active components than known battery chargers while at the same time protecting multiple battery cells from overcharge and discharge. The multiple cell battery charger in accordance with the present invention is a constant voltage battery charger that includes a regulator for providing a regulated source of direct current (DC) voltage to the battery cells to be charged. In accordance with the present invention, each battery cell is connected in series with a switching device, such as a field effect transistor (FET) and optionally a current sensing device. In a charging mode, the serially connected FET conducts, thus enabling the battery cell to be charged. The battery voltage is sensed by a microprocessor. When the microprocessor senses that the battery cell is fully charged, the FET is turned off, thus disconnecting the battery cell from the circuit. Since the battery cell is disconnected from the circuit, no additional active devices are required to protect the battery cell from discharge. As such, a single active device per cell, such as the FET, provides multiple functions without requiring additional devices. Accordingly, the battery charger in accordance with the present invention utilizes fewer active components than known battery chargers and is thus much less be expensive to manufacture. | 2013-10-31 |
20130285599 | CHARGING METHOD AND USER EQUIPMENT - The present disclosure provides a charging method and a user equipment. The charging method includes: measuring a maximum output current value of a charger according to a received fast charging instruction; setting a charging current value for a battery of a user equipment according to the maximum output current value; receiving, from the charger, a first charging current corresponding to the charging current value; and disconnecting the charger if a charging temperature of the battery is detected to be higher than a preset temperature. The charging method and user equipment provided in the present disclosure solve problems in the prior art that the charger is damaged because of overloading in case of emergency charging, and that the battery of the user equipment is overcharged because of an over-high charging temperature, so that safe and fast charging is implemented. | 2013-10-31 |
20130285600 | CHARGING APPARATUS - A charging apparatus for charging a battery includes: a control unit that obtains information indicating a status of the battery from the battery and controls permitting or prohibiting charging the battery depending on whether or not the obtained information satisfies a predetermined first condition; a charging detecting unit that detects whether or not the battery is being charged; a charging discontinuing unit that obtains the information indicating the status of the battery from the battery and discontinues charging the battery independently of the control by the control unit to permit or prohibit charging when the obtained information satisfies a predetermined second condition; and a diagnosing unit that inputs diagnostic information satisfying the second condition to the charging discontinuing unit in addition to the information indicating the status of the battery or as a replacement for the information indicating the battery status based upon information entered from the control unit. | 2013-10-31 |
20130285601 | ALTERNATING CURRENT DIRECT CURRENT ADAPTER WITH WIRELESS CHARGING - A charging device that includes an alternating current (AC) direct current (DC) adapter and a wireless charger. In one implementation the charging device combines an AC/DC adapter and a wireless charger into a same housing. | 2013-10-31 |
20130285602 | INTEGRATED INDUCTIVE AND CONDUCTIVE ELECTRICAL CHARGING SYSTEM - An apparatus and method efficiently integrating inductive and conductive charging systems, including embodiments directed towards enabling user selection of either, or both, of conductive and inductive charging. Conductive charging and inductive charging both have, in certain contexts or when judged by different criteria, advantages over the other. Systems and methods relying on one or the other would not have as wide-spread value to a user with opportunities to access both types of charging modalities. | 2013-10-31 |
20130285603 | UNIVERSAL WIRELESS CHARGING SYSTEM FOR MOTOR VEHICLES - A wireless charging system includes a primary inductive coil configured to transfer electromagnetic energy to a secondary inductive coil of a portable electronic device. The wireless charging system also includes a coil driver electrically coupled to the primary inductive coil and configured to adjust an output signal of the primary inductive coil. The wireless charging system further includes a receiver configured to receive an input signal from the portable electronic device, and a controller communicatively coupled to the receiver and to the coil driver. The controller is configured to establish a wireless charging protocol based on the input signal, and to automatically regulate the output signal based on the established wireless charging protocol and the input signal. | 2013-10-31 |
20130285604 | SYSTEMS AND METHODS FOR WIRELESS POWER TRANSFER - Systems and methods for enabling efficient wireless power transfer, and charging of devices and batteries, in a manner that allows freedom of placement of the devices or batteries in one or multiple (e.g., one, two or three) dimensions. In accordance with various embodiments, applications include inductive or magnetic charging and power, and wireless powering or charging of, e.g., mobile, electronic, electric, lighting, batteries, power tools, kitchen, military, medical or dental, industrial applications, vehicles, trains, or other devices or products. In accordance with various embodiments, the systems and methods can also be generally applied, e.g., to power supplies or other power sources or charging systems, such as systems for transfer of wireless power to a mobile, electronic or electric device, vehicle, or other product. | 2013-10-31 |
20130285605 | SYSTEMS AND METHODS FOR WIRELESS POWER TRANSFER - Systems and methods for enabling efficient wireless power transfer, and charging of devices and batteries, in a manner that allows freedom of placement of the devices or batteries in one or multiple (e.g., one, two or three) dimensions. In accordance with various embodiments, applications include inductive or magnetic charging and power, and wireless powering or charging of, e.g., mobile, electronic, electric, lighting, batteries, power tools, kitchen, military, medical or dental, industrial applications, vehicles, trains, or other devices or products. In accordance with various embodiments, the systems and methods can also be generally applied, e.g., to power supplies or other power sources or charging systems, such as systems for transfer of wireless power to a mobile, electronic or electric device, vehicle, or other product. | 2013-10-31 |
20130285606 | SYSTEM FOR TRANSFERRING POWER INDUCTIVELY TO ITEMS WITHIN A CONTAINER - An inductive power transfer system includes an inductive power transmitter in the shape of a container that is capable of holding one or more electrical devices. The system is operable to transfer power inductively to devices stowed within the container via inductive power receivers. The inductive power transmitter includes at least one primary inductor configured to couple inductively with at least one secondary inductor and at least one driver configured to provide a variable electric potential at a driving frequency across said primary inductor. The inductive power receiver may comprise at least one secondary inductor connectable to a receiving circuit and an electric load, said secondary inductor configured to couple inductively with said at least one primary inductor such that power is transferred to said electric load. | 2013-10-31 |
20130285607 | ASSEMBLY FOR ELECTRICALLY RECHARGING VEHICLES - An assembly for electrically recharging vehicles, to which individual radio units are assigned, having a parking space for a vehicle, a recharging station assigned to the parking space for cable-connected recharging of a vehicle located therein, and a transceiver connecting to the recharging station for communication with a radio unit, wherein the transceiver clears the recharging station for the recharging process depending on the communication with the radio unit, and the transceiver has a communication zone, which is restricted to the region of the parking space or can locate a radio unit as being located in this restricted region. | 2013-10-31 |
20130285608 | CHARGING CONTROL DEVICE, CHARGING CONTROL METHOD, AND PROGRAM - A charging control device includes: a remaining charge acquisition unit that obtains a remaining charge of a rechargeable battery for an electric vehicle; a lifespan information acquisition unit that obtains lifespan information expressing a degree of deterioration of the rechargeable battery; an environmental information acquisition unit that obtains information indicating a peripheral temperature of the electric vehicle; and a charging plan updating unit that creates a charging plan including a target remaining charge of the rechargeable battery and a charging process up to achievement of the target remaining charge. The charging plan updating unit determines whether or not to create the charging plan in consideration of the deterioration of the rechargeable battery on the basis of the lifespan information, and after determining to take the deterioration of the rechargeable battery into consideration, creates the charging plan such that when the temperature is equal to or higher than a predetermined value, the remaining charge of the rechargeable battery is maintained at or below a predetermined value for as long as possible during a charging period. | 2013-10-31 |
20130285609 | CHARGING STATION FOR PORTABLE ELECTRONIC DEVICES - A charging station for portable electronic devices includes a base having a substantially vertical and forward facing wall and at least one suction cup secured to the wall to temporarily secure the portable electronic devices to the wall in a position that the portable electronic devices can be viewed and operated while recharging. When more than one suction cup is provided they can be secured in laterally spaced-apart positions so that multiple portable electronic devices can be secured side-by-side for recharging or more than one suction cup can secure a portable electronic device. The suction cups can also be secured in vertically spaced apart positions so that the suction cup can engage the portable electronic device at a desired height or so that more than one suction cup can secure the portable electronic device. The charging station can also organize mail, keys, wallets, and the like. | 2013-10-31 |
20130285610 | POWER CONTROL APPARATUS, METHOD, PROGRAM, AND INTEGRATED CIRCUIT, AND STORAGE BATTERY UNIT - A control apparatus includes: a target value obtaining unit obtaining a total target value of power to be discharged from storage batteries; an SOH obtaining unit obtain information on a state of health for each of the storage batteries; a charge control unit determining how the power of the total target value is divided among and discharged from each of the storage battery. The charge control unit (i) compares the state of health of a first storage battery and the state of health of a second storage battery, and, in the case where the state of health of the second storage battery is higher than the state of health of the first storage battery, (ii) discharges from the second storage battery second power lower than first power which is discharged from the first storage battery. | 2013-10-31 |
20130285611 | POWER SUPPLY APPARATUS - A power supply apparatus includes: a plurality of power supply units; a positive polarity coupling portion; and a negative polarity coupling portion; each of the power supply units is provided with: battery units; first relays connected in series to the battery units, capable of disconnecting electrical connection between the battery units and any one of the positive polarity coupling portion and the negative polarity coupling portion; resistor elements having one ends which are connected to the battery units between the battery units and the first relay; a resistor coupling portion; and a second relay connected to the resistor coupling portion, capable of disconnecting electrical connection between the resistor coupling portion and any one of the positive polarity coupling portion and the negative polarity coupling portion which is connected to the first relays, the second relay having fewer in number than the number of the power supply units. | 2013-10-31 |
20130285612 | CHARGE/DISCHARGE CONTROL SYSTEM FOR STORAGE BATTERY ASSEMBLY - A charge/discharge control system for a storage battery assembly includes a plurality of battery blocks each connected in parallel to a charge/discharge main bus via protective resistors, and a plurality of switches connected in parallel to the protective resistors, between the charge/discharge main bus and the plurality of battery blocks. In a state in which the plurality of switches are all on, when one of the plurality of switches turns off and a parallel off occurs, a charge/discharge control device performs processing for throttling the charge/discharge power, that flows to the charge/discharge main bus, in accordance with a pre-set reference. When the parallel off is canceled by the throttling processing, the charge/discharge power is restored. | 2013-10-31 |
20130285613 | BATTERY CONTROL DEVICE - Provided is a storage battery system comprising a plurality of storage batteries connected in parallel, characterized by detecting the temperature and energy amount of each battery connected in parallel, calculating the deterioration rate of each battery based on the detected temperature and energy-amount, and controlling the power amount to be inputted to and output from each battery so that the deterioration rate of each storage battery will come closer to each other. | 2013-10-31 |
20130285614 | SYSTEM AND METHOD FOR DYNAMIC POWER MANAGEMENT OF A MOBILE DEVICE - A mobile device adapted for dynamic power management. The mobile device includes an output power port, a voltage converter adapted to convert an input voltage to provide an output voltage to the output power port, and a processor. The processor is adapted to monitor at least one load electrically to determine when the at least one load will become active or inactive, determine a minimum required output voltage to be provided by the voltage converter based on the at least one load that will become active or inactive, control the voltage converter to provide at least the minimum required output voltage on the output power port in advance of the at least one load becoming active or after the at least one load becomes inactive, and when the input voltage is below the first threshold, control the voltage converter to reduce the output voltage. | 2013-10-31 |
20130285615 | MODULE FOR CONVERTING VOLTAGE BETWEEN A HIGH-VOLTAGE ELECTRICAL NETWORK OF AN AIRCRAFT AND AN ENERGY STORAGE ELEMENT - A module converting voltage between a high-voltage electrical network and at least one energy storage element an aircraft, the conversion module configured to reversibly convert between a DC voltage of the high-voltage electrical network and a DC voltage of the energy storage element, the DC voltage of the energy storage element floating relative to the DC voltage of the high-voltage electrical network and centered relative to the mass of the aircraft, the module including an input module including two filters each capable of receiving a DC voltage, a first arm and a second arm including switches, and a mechanism controlling the switches, operating per cycle of a switching period and capable of controlling at least one first switch and at least one second switch identically but offset by a half-period, whereby the first switch is open when the second switch is closed and vice versa. | 2013-10-31 |
20130285616 | BATTERY DEVICE, BATTERY MANAGEMENT SYSTEM, AND BATTERY MANAGEMENT METHOD - The present invention relates to a battery device, a battery management system, and a battery management method which can facilitate management of a battery. | 2013-10-31 |
20130285617 | Method for Adjusting a DC Intermediate Circuit Voltage - The disclosure relates to a method for adjusting a voltage of a DC intermediate circuit in a battery system composed of a battery and a drive system. The battery is connected to the drive system via the DC intermediate circuit and comprises at least one battery module that has a coupling unit and at least one battery cell connected between a first input and a second input of the coupling unit. In a first method step, the at least one battery cell of the at least one battery module is decoupled during a first variable time period by emitting a corresponding control signal to the coupling unit of the at least one battery module, and the at least one battery module is bridged on the output side so that an output voltage of the battery becomes zero. | 2013-10-31 |
20130285618 | CONTACTLESS METHOD OF SUPPLYING POWER - Power supply stand output to the portable device is adjusted according to the power adjustment signals. Maximum power supply stand output is limited to a power output threshold value. The portable device compares the power received from the power supply stand to the required power. When the received power is lower than the required power, the portable device sends a power adjustment signal to the power supply stand, which is an increase-power-request signal. When the received power is greater than the required power, the portable device sends a decrease-power-request signal to the power supply stand. The power supply stand adjusts output and limits it to the power output threshold value. When continuous output of increase-power-request signals from the portable device is detected over a preset time period, a foreign object is determined to be on the power supply stand. | 2013-10-31 |
20130285619 | Method and device for controlling charge of battery - A method for controlling charge of a battery includes: when charging a battery, monitoring a temperature of the battery in real time, and acquiring a corresponding dynamic factor according to the temperature of the battery, wherein the dynamic factor is used for characterizing a dynamically regulating component of a charge current coefficient during the charge process; calculating a maximum allowed charge current according to the dynamic factor and preset static factors; and controlling the charge of the battery according to the maximum allowed charge current. This enables adaptive charge management according to application scenarios, which effectively avoids the situation where the charge current of the battery is too high or too low, improves the environmental adaptability of battery charging, and further extends the service life of the battery and saves costs. Also provided is a method for controlling charge of a battery. | 2013-10-31 |
20130285620 | CONTACTLESS METHOD OF SUPPLYING POWER - The contactless method of supplying power magnetically couples a portable device receiving coil with a power supply stand transmitting coil and transmits power by magnetic induction. The portable device sends power adjustment signals to the power supply stand, and the stand adjusts transmitting coil output based on the power adjustment signals. The portable device compares the power received from the stand to the required power, sends an increase-power-request signal if the received power is below the required power, and sends a decrease-power-request signal if the received power is above the required power. Power adjustment signals include increase-power-request weighting values that increase with the size of the request to increase power and/or rate-of-change weighting values that increase with the amount of change in the requested power. Weighting values output with a given period are added and a foreign object is judged to be present when the sum attains a set value. | 2013-10-31 |
20130285621 | POWER SUPPLYING APPARATUS AND POWER CHARGING APPARATUS - There are provided a power supplying apparatus controlling voltage of a power factor correcting circuit according to a power state and a power charging apparatus controlling voltage of a power factor correcting circuit according to a charging state of a battery. The power supplying apparatus includes: a power factor correcting circuit switching input power to correct a power factor thereof and adjusting a voltage level of the power of which the power factor has been corrected according to a state of power transferred to a load; and a resonant DC to DC converting circuit having a resonance frequency varied according to a voltage level of DC power from the power factor correcting circuit and converting the DC power from the power factor correcting circuit into supply power having a preset level according to the resonance frequency. | 2013-10-31 |
20130285622 | Current Sensing Circuit Disconnect Device and Method - A device and method are provided for saving power and electricity in a charging device such for external power supplies and battery chargers having a primary circuit and a secondary circuit where a switch is located in the primary circuit and a current sensing device in the secondary circuit to sense when there is a drop in current in the secondary circuit or no current in the secondary circuit because the load or a cell phone is charged and when this occurs the switch in the primary circuit is opened and the primary circuit no longer draws power from the source of power until the switch in the primary circuit is closed by activation of a user of the charging device. | 2013-10-31 |
20130285623 | SYSTEM AND METHOD FOR ADJUSTING THE EXERCISE SCHEDULE OF A GENERATOR - Some embodiments relate to an example system for adjusting an exercise schedule of a generator. The system includes the generator and a controller that exercises the generator according to the exercise schedule. The controller modifies the exercise schedule based on generator use. In some of the example embodiments described herein, the controller is a generator controller. Other embodiments relate to a method for adjusting an exercise schedule of a generator. The method includes exercising the generator according to the exercise schedule, and modifying the exercise schedule based on generator use. | 2013-10-31 |
20130285624 | Device and Method for Inhibiting Vibration of Superconducting Magnetic Suspension Rotor - A device and a method for inhibiting vibration of a superconducting magnetic suspension rotor. The device comprises a rotor cavity housing, lateral coils, a superconducting rotor with a rotor top plane, a copper plate, pole shoes, a z-axial vibration measuring sensor, an x-axial vibration measuring sensor, a y-axial vibration measuring sensor, and a copper ring, the pole shoes having a spherical inner surface and being arranged symmetrically up and down so as to form a rotor cavity; the annular lateral coils being closely adjacent to an outside cylindrical surface of the rotor cavity housing and fixed to the same; the z-axial vibration measuring sensor being fixed to a central region of the copper plate; the x-axial vibration measuring sensor being mounted along an x-coordinate axis and the y-axial vibration measuring sensor mounted on a on the copper ring which is mounted along an equatorial plane of the rotor. | 2013-10-31 |
20130285625 | LOAD DRIVING DEVICE AND SYSTEM, LIMITING POINT CONTROL METHOD AND DEVICE - A load driving device and system, and a limiting point control method and device. The load driving device comprising: a voltage/current regulative main circuit placed under the control of an output current controller, for use in conducting a voltage conversion on an input voltage, and in supplying electric power to a subsequent load unit; a sampling unit connected to an output terminal of the main circuit, for use in sampling an output feature parameter of the main circuit; the output current controller, for use in controlling a limiting point of the main circuit, and on the basis of the adjustment direction of the limiting point and on changes of the output feature parameters of the main circuit before and after an adjustment, determining a steady working point for the main circuit, and controlling the main circuit to work at the steady working point. The load driving device and system enable an increase in driver reliability and a reduction in circuit complexity. | 2013-10-31 |
20130285626 | DC-DC CONVERTER - A DC-DC converter is provided. The DC-DC converter a power stage includes a first high side driver and a protecting circuit including a second high side driver, wherein the first high side driver and the second high side driver are connected in parallel, and operate in complementary. | 2013-10-31 |
20130285627 | APPARATUS AND METHOD FOR CONTROLLING A PLURALITY OF POWER CONVERTING MODULES AND APPARATUS AND METHOD FOR ANALYZING POWER QUANTITY IMBALANCE - Disclosed is a technology related to an apparatus for controlling or analyzing a power converting module, and more particularly, to a technology for improving imbalance of power quantities processed by a plurality of power converting modules. Relative power quantities processed by the modules are detected through a common circuit element installed in an input terminal or an output terminal shared by the plurality of modules, without detecting information acquired through current or voltage sensors individually installed in respective modules, and control values of the respective modules may be compensated for through the detected relative power quantities or may be output in a form where a user can easily identify them. | 2013-10-31 |
20130285628 | Integrated Power Supply with Wide Input Supply Voltage Range - A novel integrated switched mode power supply circuit that provides supply voltages to an integrated circuit may be of minimal complexity and have the capacity for a wide range of input supply voltages. The novel power supply may include cascaded, unregulated step-down charge pumps (e.g. unregulated voltage splitters), one or more linear regulators coupled to the output of the cascaded voltage splitters, and a start-up current source to provide the IC supply current until the input supply voltage is sufficiently high for the voltage splitter(s) to be functional to provide the IC supply current. Furthermore, each voltage splitter may be activated or disabled depending on the value of the input supply voltage, and the input of a disabled voltage splitter may be shorted to its output via an integrated power switch. Using (cascaded) voltage splitters to provide the IC supply current reduces overall power dissipation in the IC. | 2013-10-31 |
20130285629 | Dynamic Current Limit Apparatus and Method - A dynamic current limiter circuit is disclosed. The dynamic current limiter includes an input node an output node. The dynamic current limiter also includes a current control valve coupled between the input and output nodes, the current control valve being configured to limit current flow between the input and output nodes based on a control input. The dynamic current limiter also includes a current change detector coupled between the input and output nodes, the current change detector being configured to detect a change in current through the input and output nodes and generate a control signal configured to drive the control input. The current control valve is configured to limit current flow between the input and output nodes in response to the current control signal. | 2013-10-31 |
20130285630 | VOLTAGE REGULATING APPARATUS WITH ENHANCEMENT FUNCTIONS FOR TRANSIENT RESPONSE - A voltage regulating apparatus is disclosed. The voltage regulating apparatus includes: a power transistor having a control terminal, a first terminal for receiving a power supply, and a second terminal for providing an output voltage; a feedback circuit coupled to the second terminal, configured for providing a feedback voltage according to the output voltage; an amplifier having a source current unit and a sink current unit, configured for driving the power transistor through the control terminal by use of the source and sink current units according to a reference voltage and the feedback voltage; and a transient enhancement unit configured for monitoring the source and sink current units, and regulating a voltage at the control terminal according to the monitored result. | 2013-10-31 |
20130285631 | Low-Dropout Voltage Regulator - A low-dropout voltage regulator includes a power transistor configured to receive an input voltage and to provide a regulated output voltage at an output voltage node. The power transistor includes a control electrode configured to receive a driver signal. A reference circuit is configured to generate a reference voltage. A feedback network is coupled to the power transistor and is configured to provide a first feedback signal and a second feedback signal. The first feedback signal represents the output voltage and the second feedback signal represents an output voltage gradient. An error amplifier is configured to receive the reference voltage and the first feedback signal representing the output voltage. The error amplifier is configured to generate the driver signal dependent on the reference voltage and the first feedback signal. The error amplifier includes an output stage that is biased with a bias current responsive to the second feedback signal. | 2013-10-31 |
20130285632 | Soft Start Scheme Under Low Voltage Power - A soft start circuit includes an error amplifier for generating a control signal according to an input voltage, a feedback voltage and a reference voltage, a feedback circuit for generating the feedback voltage according to an output voltage, an internal voltage source for generating a soft start voltage, and a sink circuit including a first transformation module for generating a first transformation current according to the soft start voltage, a second transformation module for generating a second transformation current according to the feedback voltage, a comparison module coupled to the first transformation module and the second transformation module for generating a comparison result according to the first transformation current and the second transformation current, and an output module coupled to the comparison module for generating a sink current according to the comparison result, so as to control the control signal. | 2013-10-31 |
20130285633 | BATTERY POWER SUPPLY WITH AUTOMATIC LOAD SENSING - A battery power supply with extended shelf-life is composed of a plurality of batteries connected in series with a switching element and voltage booster. The switching element is composed of a transistor in parallel with a passive component that produces a voltage drop when the transistor is off. The voltage booster maintains an output voltage at set value when battery capacity deteriorates. A micro-controller is used to monitor voltage potentials to detect the presence of an external load. When no load is detected, all active components are disabled to conserve energy and avoid self-discharge. | 2013-10-31 |
20130285634 | CONTROL CIRCUIT WITH HYSTERESIS FOR A SWITCHING VOLTAGE REGULATOR AND RELATED CONTROL METHOD - A control circuit for a switching voltage regulator is configured to receive an error signal representative of a regulator output voltage in relation to a nominal output voltage, and includes a set/reset flip-flop, a hysteresis comparator and a logic circuit. The flip-flop is configured to produce a switching control signal according to logic values at its set and reset terminals. The comparator is configured to produce a set signal at the set terminal when an error signal drops below a first value, and a reset signal when the error signal rises above a second value. The logic circuit is configured to prevent transmission of the reset signal to the reset terminal during a selected minimum time period and to thereafter enable transmission of the reset signal, and further, to produce an alternate reset signal at the reset terminal at the end of the selected maximum time period. | 2013-10-31 |
20130285635 | POWER SUPPLY CIRCUIT - There is provided a power supply circuit. A switching regulator is configured to drop a battery voltage to a first specific voltage. A series regulator includes a switching element and a capacitor connected at an output stage of the switching element. The series regulator is configured to drop the first specific voltage to a second specific voltage and output the second specific voltage. A control circuit is configured to adjust an amount of electric charge to be accumulated in the capacitor according to a voltage value of the first specific voltage. | 2013-10-31 |
20130285636 | POWER TRACKING DEVICE AND POWER TRACKING METHOD - A power tracking device and a power tracking method is disclosed herein. The power tracking device includes a power voltage setting circuit, a switch, a switching signal circuit, and a voltage memory circuit. The switching signal circuit is configured for sending a first control signal to the switch. When the switch receives the first control signal and electrically isolates the power source and the power voltage setting circuit, the voltage memory circuit stores an open circuit voltage of the power source and sends a setting voltage relative to the open circuit voltage, and when the switch receives the first control signal and electrically connects the power source and the power voltage setting circuit, the power voltage setting circuit sets an output voltage of the power source to correspond with the setting voltage. | 2013-10-31 |
20130285637 | BANDGAP CIRCUIT WITH TEMPERATURE CORRECTION - A temperature corrected voltage bandgap circuit is provided. The circuit includes first and second diode connected transistors. A first switched compare circuit is coupled to the one transistor to inject or remove a first current into or from the transistor. The first current is selected to correct for curvature in the output voltage of the bandgap circuit at one of hotter or colder temperatures. | 2013-10-31 |
20130285638 | WAKE-UP CIRCUIT AND ELECTRONIC DEVICE - A wake-up circuit used in an electronic device, the electronic device comprising a power supply and a load. The wake-up circuit includes a receiving unit receiving a wake-up signal, a control unit continuously generating an enable signal for a first predetermined time period when the receiving unit receives the wake-up signal, a voltage converter, and a processing unit. The power supply provides a secondary voltage to the voltage converter when the electronic device is in the standby state; the voltage converter converts the secondary voltage to a working voltage in response to the enable signal. The processing unit is powered by the working voltage to generate the enable signal and output the enable signal to the voltage converter and generates a control signal when the processing unit determines that the wake-up signal is a power-on command, the control signal controls the power supply to power the load. | 2013-10-31 |
20130285639 | METHOD OF ANALYZING A MATERIAL - A method of material analysis, including; placing an electrode in proximity to the material; applying a voltage signal to generate plasma, preferably Dielectric Barrier Discharge in Air, between the material and the electrode; moving the electrode relative to the surface; monitoring an electrical signal associated with the microdischarge; and detecting a change in a physical characteristic of the material through variation in the monitored signal. | 2013-10-31 |
20130285640 | SEMICONDUCTOR DEVICE, MEASUREMENT DEVICE, AND CORRECTION METHOD - A semiconductor device includes an oscillator that oscillates at a specific frequency, a semiconductor integrated circuit that integrates a temperature sensor that detects a peripheral temperature, and a controller that is electrically connected to the oscillator and that corrects temperature dependent error in the oscillation frequency of the oscillator based on the temperature detected by the temperature sensor and a sealing member that integrally seals the oscillator and the semiconductor integrated circuit. | 2013-10-31 |
20130285641 | GROUND OFFSET MONITOR AND COMPENSATOR - Methods and systems are described for monitoring and compensating an offset between a reference voltage used in a first device and a corresponding reference voltage used in a second device. The first device can include offset circuitry. The offset circuitry receives two voltage signals. The first voltage signal is equal to a first voltage value that is used as a reference voltage in the first device. The second voltage signal can be a time-varying voltage signal that has a known relationship with a second voltage value that is used as a reference voltage in the second device. The offset circuitry can then determine the second voltage value from the second voltage signal, and output an offset value based on a difference between the first voltage value and the second voltage value. | 2013-10-31 |
20130285642 | THERMALLY STABILIZED POWER SENSOR - A power-measurement device includes a power detector and a tempering device. The power detector is integrated on a monolithic chip as an integrated circuit. It converts a high-frequency test signal into a signal which displays the power of the high-frequency test signal. The power-measurement device further includes a signal input. In this context, the tempering device is arranged outside the monolithic chip on a side of the monolithic chip facing away from the integrated circuit. The signal input is connected to the power detector by a first line on a synthetic substrate. The signal input guides the high-frequency test signal to the power detector by the first line. | 2013-10-31 |
20130285643 | METER APPARATUS HAVING THREE-PHASE JUDGMENT FUNCTION - A meter apparatus having three-phase judgment function includes a control unit, a multimeter measurement unit electrically connected to the control unit, a three-phase judgment unit electrically connected to the control unit, a first measurement jack electrically connected to the multimeter measurement unit and the three-phase judgment unit, a second measurement jack electrically connected to the multimeter measurement unit and the three-phase judgment unit, and a third measurement jack electrically connected to the multimeter measurement unit and the three-phase judgment unit. | 2013-10-31 |
20130285644 | CURRENT DETECTION PRINTED BOARD, VOLTAGE DETECTION PRINTED BOARD, CURRENT/VOLTAGE DETECTION PRINTED BOARD, CURRENT/VOLTAGE DETECTOR, CURRENT DETECTOR AND VOLTAGE DETECTOR - A current and voltage detection printed board includes a board formed with a penetration hole; a first pattern wire formed at a periphery of the penetration hole; a second pattern wire formed at the periphery of the penetration hole; a plurality of first through holes that penetrate the board between the first and second pattern wires; a third pattern wire formed at the periphery of the penetration hole; a fourth pattern wire formed at the periphery of the penetration hole; and a plurality of second through holes that penetrate the board between the third and fourth pattern wires. | 2013-10-31 |
20130285645 | Apparatus and Methods Thereof for Power Consumption Measurement at Circuit Breaker Points - Apparatus and methods are provided for the measurement of power consumption at points of interest, such as circuit breakers, machines, and the like. Accordingly, means are provided for measurement of power consumption for each electrical sub-network that is controlled by a circuit breaker. Each apparatus is enabled to communicate its respective data, in an environment of a plurality of such apparatuses, to a management unit which is enabled to provide finer granularity power consumption profiles. Challenges of measuring relatively low supply currents, wireless operation in an environment of a large number of apparatuses, and self-powering are addressed. | 2013-10-31 |
20130285646 | Current Measurement For An Electric Heater - The invention relates to a method for measuring a current or voltage output quantity of a switched-mode power supply circuit (H), referred to as a chopper circuit, of period T and of cyclic ratio α, belonging to the interval ]0; 1[, such that, at each period, the supply current is non-zero during an “ON” phase of duration αT, and zero during an “OFF” phase of duration (1−α)T. The measurement method includes the following steps: measuring the value G | 2013-10-31 |
20130285647 | Self powered wireless system - Apparatus for a self-powered wireless transmitter system. One such system includes an inductor, a delay circuit, and a transmitter with an antenna. The magnet interacting with the inductor generates both power and a trigger signal. The inductor generates sufficient power for the transmitter to transmit a wireless signal corresponding to when the magnet interacts with the inductor. Precise timing is insured by the inductor being connected to the trigger input of the transmitter unit and the delay circuit adding a short delay to the signal from the inductor with the delayed signal connected to the supply voltage connection of the transmitter. The transmitter transmits the wireless signal upon being energized through the delay circuit. | 2013-10-31 |
20130285648 | MICROFLUIDIC CHIP FOR SUSCEPTIBILITY OF SUPERPARAMAGNETIC NANOPARTICLES OF BEAD AND DROPLET TYPES AND MEASURING METHOD FOR SUSCEPTIBILITY USING THE SAME - The present invention relates to a microfluidic chip for measuring the magnetic susceptibility of a superparamagnetic nanoparticle droplet and a method for measuring magnetic susceptibility using the same. According to the invention, the magnetic susceptibility of a superparamagnetic nanoparticle can be continuously and accurately measured in a flowing fluid using a microfluidic chip including microfluidic channels. | 2013-10-31 |
20130285649 | POSITION SENSOR - Position sensor ( | 2013-10-31 |
20130285650 | ROTATION SPEED DETECTING APPARATUS - A rotation speed detecting apparatus, including: an annular fixing member to be fixed to a support member configured to rotatably support a rotating object to be detected; a case mounted to the fixing member; a detecting portion abutting against an abutment portion provided in the case so as to be positioned with respect to the case for detecting a rotation speed of the rotating object to be detected; and a resin mold portion formed by resin molding and configured to fix the detecting portion to the case in a state in which the detecting portion abuts against the abutment portion of the case. | 2013-10-31 |
20130285651 | THREE AXIS MAGNETIC SENSOR DEVICE AND METHOD - A method and structure for a three-axis magnetic field sensing device is provided. The device includes a substrate, an IC layer, and preferably three magnetic field sensors coupled to the IC layer. A nickel-iron magnetic field concentrator is also provided. | 2013-10-31 |
20130285652 | METHOD AND APPARATUS USABLE FOR MINING AND MINERAL EXPLORATION - A method for mineral analysis of a sample based on detection of NQR and/or Local Field Magnetic Resonance (LFMR) signals from a particular substance within a sample includes: setting a frequency of RF pulses to be approximately equal to one of the NQR or LFMR frequencies of the substance; setting a set of parameters of the RF pulses to be optimal for the substance; setting a set of receiving parameters to be optimal for the substance; tuning the probe to maximum sensitivity for the signals detected at predetermined frequency and/or to maximum power transfer efficiency for RF pulses transmitted with the probe; transmitting the RF pulses with the probe at said optimal level during a transmitting period to irradiate the sample and excite an NQR or LFMR signal in the substance, if present; detecting and processing NQR or LFMR signals emitted by the substance; and calculating the concentration of the substance in the sample. | 2013-10-31 |
20130285653 | METHOD FOR CORRECTING IMAGE DISTORTION AND SYSTEM, AND MAGNETIC RESONANCE IMAGING EQUIPMENT - In a method for an apparatus correcting image distortion in diffusion-weighted echo-planar magnetic resonance imaging, a marker sequence is applied before a diffusion-weighted echo planar imaging sequence, to form a combined sequence. The combined sequence is used to obtain marked images with different preset b values and different preset diffusion directions. The diffusion-weighted echo planar imaging sequence is used to obtain diffusion-weighted echo planar images with the same b values and diffusion directions as the marked images. A stretching coefficient and a displacement coefficient are calculated for each image data column of the diffusion-weighted echo planar image. The stretching coefficient and displacement coefficient are used to correct the diffusion-weighted echo planar images. | 2013-10-31 |
20130285654 | METHOD AND APPARATUS TO GENERATE MAGNETIC RESONANCE IMAGES - In a method and apparatus to generate a magnetic resonance (MR) image in a volume of interest of an examination subject, the magnetization is excited in an additional volume in the subject by at least one RF pulse, in order to achieve a desired magnetization in the volume of interest. The additional excitation volume differs at least partially from the volume of interest. For this purpose, at least one MR overview image of the examination subject is analyzed automatically to determine a position of at least one anatomical structure of the examination subject, from which the volume of interest is automatically determined. The additional excitation volume is automatically determined using the position of the at least one anatomical structure. The MR image in the volume of interest is acquired with excitation of the magnetization in the automatically determined additional excitation volume. | 2013-10-31 |
20130285655 | APPARATUS AND METHOD FOR MAGNETIC RESONANCE IMAGING - A magnetic resonance imaging apparatus includes: a sequence controlling unit that, by controlling an execution of a pulse sequence, acquires magnetic resonance (MR) signals corresponding to a plurality of channels in the pulse sequence executed as a series, the MR signals being configured to be arranged into a first region of a k-space at first intervals and into a second region larger than the first region at second intervals larger than the first intervals; an arranging unit that arranges the MR signals corresponding to the channels into the k-space as k-space data; and an image generating unit that generates first-interval k-space data corresponding to the channels based on the second-interval k-space data acquired by executing the pulse sequence and generates a magnetic resonance image based on the generated first-interval k-space data, the first-interval k-space data acquired by executing the pulse sequence, and sensitivity distributions corresponding to the channels. | 2013-10-31 |
20130285656 | SLICE-SPECIFIC PHASE CORRECTION IN SLICE MULTIPLEXING - In a method to correct a signal phase in the acquisition of MR signals of an examination subject in a slice multiplexing method, in which MR signals from at least two different slices of the examination subject are detected simultaneously in the acquisition of the MR signals, a linear correction phase in the slice selection direction is determined for each of the at least two slices. An RF excitation pulse with a slice-specific frequency is radiated in each of the at least two different slices. A slice selection gradient is activated during a slice selection time period, during which the different RF excitation pulses are radiated in the at least two different slices, and the slice selection time period has a middle point in time in the middle of the slice selection time period, and the different RF excitation pulses temporally overlap for the at least two different slices. A time offset of the RF excitation pulse relative to the middle point in time for each of the RF excitation pulses is determined, such that a slice-specific correction gradient moment in the slice selection direction that corresponds to the linear correction phase of the respective slice acts on the magnetization of the respective slice. | 2013-10-31 |
20130285657 | Classification of Materials Using Nuclear Magnetic Resonance Dispersion and/or X-Ray Absorption - Methods for determining the identity of a substance are provided. A classification parameter set is defined to allow identification of substances that previously could not be identified or to allow identification of substances with a higher degree of confidence. The classification parameter set may include at least one of relative nuclear susceptibility (RNS) or an x-ray linear attenuation coefficient (LAC). RNS represents the density of hydrogen nuclei present in a substance relative to the density of hydrogen nuclei present in water. The extended classification parameter set may include T | 2013-10-31 |
20130285658 | WATER/FAT IMAGE IDENTIFICATION METHOD AND DEVICE, AND HARMONIZATION METHOD AND DEVICE - Disclosed is a water/fat image identification method and device, and a harmonization method and device. An embodiment of the water/fat image identification method includes obtaining a water/fat image pair calculated by a Dixon method, and marking these as a first image and a second image; calculating grayscale histograms for the first image and the second image, respectively, to obtain a first grayscale histogram and second grayscale histogram; subtracting the second grayscale histogram from the first grayscale histogram to obtain a water/fat relationship graph; searching for the highest peak and lowest trough in the water/fat relationship graph, and if the highest peak is located behind the lowest trough, determining the first image as being a water image and the second image as being a fat image; and otherwise, determining the opposite. Embodiment of the present invention can accurately identify water images and fat images. | 2013-10-31 |
20130285659 | System and Method for Control of RF Circuits for Use With an MRI System - A system and method for automatically adjusting electrical performance of a radio frequency (RF) coil assembly of a magnetic resonance imaging (MRI) system during a medical imaging process of a subject to control changes in loading conditions of the RF coil caused by the subject during the medical imaging process. | 2013-10-31 |
20130285660 | Controlling a Magnetic Resonance System - A method for controlling a magnetic resonance system is provided. The magnetic resonance system includes a plurality of radio-frequency transmit channels via which, in operation, parallel RF pulse trains are transmitted. The method includes specifying a common reference pulse train for the plurality of the radio-frequency transmit channels. The method also includes, determining, in an RF pulse optimization method, taking into account a prespecified target magnetization, a transmit scaling factor for each of the radio-frequency transmit channels in order to calculate the RF pulse trains for the transmit channels on the basis of the reference pulse train. The transmit scaling factors are optimized taking into account a component-induced B | 2013-10-31 |
20130285661 | Spin detector arrangement for measuring the vector component of a spin vector predominating in a particle beam - The invention relates to a spin detector arrangement for detecting vector components of a predominating spin vector in a particle beam (T) having a predominating spin orientation of the particles. The spin detector arrangement comprises a spin rotator ( | 2013-10-31 |
20130285662 | MAGNETIC RESONANCE IMAGING APPARATUS AND IMAGE PROCESSING APPARATUS - A magnetic resonance imaging apparatus includes: an arranging unit that arranges magnetic resonance signals acquired by implementing parallel imaging and correspond to a plurality of channels into a first region on a k-space so as to be positioned at first interval to generate first k-space data and into a second region larger than the first region so as to be positioned at second interval larger than the first interval to generate second k-space data; a generating unit that generates third k-space data at the first interval corresponding to each of the plurality of channels, based on the second k-space data; and a reconstructing unit that reconstructs a magnetic resonance image, based on the first k-space data, the third k-space data, and sensitivity distributions corresponding to the plurality of channels. | 2013-10-31 |
20130285663 | CRYOGENIC REFRIGERATOR AND COOLING METHOD - A cryogenic refrigerator includes a refrigerator having a cylinder and a displacer movably arranged in the cylinder. The displacer is operative to provide intake of an operating gas into the cylinder and exhaust of the gas out of the cylinder. The refrigerator includes a compressor for compressing the operating gas. The compressor includes a low-pressure side to receive the gas exhausted from the cylinder and a high-pressure side to discharge the gas compressed in the compressor into the cylinder. The refrigerator includes a medium-pressure buffer volume connected to a high-pressure side or a low-pressure side of the compressor. The compressor adjusts a pressure of the buffer volume. The buffer volume is also connected to the cylinder. | 2013-10-31 |
20130285664 | STATE SPACE FEEDBACK CONTROLLER IN THE DIGITAL DOMAIN FOR AN MRI GRADIENT COIL POWER SUPPLY - The invention relates to a state space feedback controller operating in the digital domain for the regulation of the current supply to MRI gradient coils from a multiple-bridge PWM power amplifier. The Pl-controller comprises an integration part (for the integration of the difference between the demand current and the measured gradient coil current) and a subsequent P-controlled system which in turn comprises a delay compensator/stabilizer and a plant. The delay compensator/stabilizer comprises a multi-path feedback loop by means of which its digital output signal is fed back through delay blocks, on the one hand, and through filter units, on the other hand, whereby the filter units model the transfer functions of a gradient coil output filter for the gradient coil voltage and the output current of the amplifier inverter units, respectively. In the plant, a filter unit, which models the gradient coil transfer function, is connected in series to a delay chain for the delay of the measurement value of the gradient coil current. | 2013-10-31 |
20130285665 | Signal Processing Methods for Steering to an Underground Target - A method of processing data from an electromagnetic resistivity logging tool which includes a transmitter coil and a receiver coil is disclosed. The electromagnetic resistivity logging tool is placed at a desired location. The transmitter coil and the receiver coil are positioned at a first azimuthal angle. A signal is transmitted from the receiver coil. The receiver coil then receives a signal. The signal at the receiver coil, a tilt angle of the transmitter coil, a tilt angle of the receiver coil and the first azimuthal angle are then used to calculate a first complex voltage representing at least one component of the received signal. | 2013-10-31 |
20130285666 | Interlock Switch Circuit with Single Fault Detection - A testing system to test safety interlock switches to ensure that they are operating normally comprising a test loop circuit | 2013-10-31 |
20130285667 | VOLTAGE DETECTION CIRCUIT - A voltage detection circuit for a secondary battery. A secondary battery is composed of a plurality of battery blocks (B | 2013-10-31 |
20130285668 | ELECTROSTATIC DISCHARGE EVENT DETECTOR - A device for detecting an electrostatic discharge event by an object, the device comprising: a receiver for forming a first capacitive coupling with the object and a second capacitive coupling with a ground; and a first discharge path for discharging the second capacitive coupling to the ground, such that an electrostatic discharge event by the object charges the second capacitive coupling by an amount in a first time interval Δt | 2013-10-31 |
20130285669 | GROUND FAULT DETECTION CIRCUIT - A ground fault detection circuit includes an AC power supply and a plurality of resonance circuits. The plurality of resonance circuits are connected between at least one current path formed of a plurality of loads and the AC power supply. Each of the plurality of resonance circuits has the same resonance frequency as the frequency of the AC power supply. | 2013-10-31 |
20130285670 | GROUND FAULT DETECTION DEVICE, GROUND FAULT DETECTION METHOD, SOLAR ENERGY GENERATOR SYSTEM, AND GROUND FAULT DETECTION PROGRAM - A ground fault detection device detects a ground fault within a photovoltaic array in a solar energy generator system including a photovoltaic string composed of a plurality of photovoltaic modules connected in series, the photovoltaic array composed of a plurality of the photovoltaic strings connected in parallel, and a load device consuming or converting electric power. The ground fault detection device includes a switching section which parallels off the photovoltaic array or the photovoltaic string by electrically disconnecting the photovoltaic array or the photovoltaic string from the solar energy generator system and a detection section which detects a ground fault in the photovoltaic array or the photovoltaic string while the photovoltaic array or the photovoltaic string is paralleled off by the switching section. | 2013-10-31 |
20130285671 | METHOD AND APPARATUS FOR PROTECTING POWER TRANSFORMERS FROM LARGE ELECTRO-MAGNETIC DISTURBANCES - A protective system far a power transformer having a neutral line connected to ground where large currents can flow in the neutral line due to electro-magnetic disturbances. The system includes circuitry for: (a) sensing the current level in the neutral line and whether it exceeds a predetermined threshold for a predetermined period; and (b) sensing and processing the harmonic content of the load current and determining the existence of certain relationships of the “even” and “odd” harmonics. Signals, including alarms, indicative of excessive conditions are produced. The system may also include circuitry for sensing the load current level and generating a signal alarm if the load level is above a giver) value when the harmonics and the DC current have values in excess of certain predetermined values. | 2013-10-31 |
20130285672 | ELECTRIC FIELD SENSING DEVICE - A sensing system is disclosed that uses at least one conductive plate and associated electronic circuitry to provide an output that is indicative of an object's position in relation to the at least one conductive plate. The sensing system is provided with a high impedance drive signal that varies as a result of the location of an object relative to the at least one conductive plate. The electronic circuitry receives a high impedance drive signal value as an input and a processor uses the value to calculate a digital output indicative of the object's position. The high impedance drive signal value is monitored over time enabling the objects position, displacement, pressure, movement, impact and energy to be determined. This data is output to a display and may also be transmitted to a person located remotely from the object being monitored. | 2013-10-31 |
20130285673 | SYSTEM AND METHOD FOR LOW VOLTAGE DIFFERENTIAL SIGNALING TEST - A test system and method for low voltage differential signaling (LVDS) is provided. The system comprises: an input module for the user to input the information needed by the test; a communication module for connecting the control device | 2013-10-31 |
20130285674 | ULTRA LOW STARTUP CURRENT POWER DETECTION APPARATUS - A power detection apparatus is provided. The power detection apparatus includes a first current processing circuit and a second current processing circuit. The first current processing circuit is configured to provide a dynamic bias voltage at a bias terminal in response to a variation of a system power. The second current processing circuit is coupled to the first current processing circuit and is biased under the dynamic bias voltage for outputting a power good signal at an output terminal to represent that the system power is ready when the dynamic bias voltage is greater than a threshold voltage. | 2013-10-31 |
20130285675 | TUNABLE PROXIMITY SENSOR - A tunable proximity sensor and a method of manufacturing the same are disclosed. The proximity sensor includes a cap with different sections having different dielectric constants, shapes, and/or thicknesses. As the cap is rotated with respect the sensing element, these non-uniform sections induce a different loading on the sensor element from the electromagnetic field, allowing the proximity sensor to be tuned. | 2013-10-31 |
20130285676 | MICROMECHANICAL RESONATORS - Embodiments of the invention include micromechanical resonators. These resonators can be fabricated from thin silicon layers. Both rotational and translational resonators are disclosed. Translational resonators can include two plates coupled by two resonate beams. A stable DC bias current can be applied across the two beams that causes the plates to resonate. In other embodiments, disk resonators can be used in a rotational mode. Other embodiments of the invention include using resonators as timing references, frequency sources, particle mass sensors, etc. | 2013-10-31 |
20130285677 | WATER CONTENT MEASURING APPARATUS - A water content measuring apparatus, for measuring water content present in a fluid flow through a tube, includes a pulse generator for generating in operation a temporal series of excitation pulses, a coil arrangement disposed around the tube adapted to be excited into resonance by the series of excitation pulses and interact with the fluid flow through the tube, and a signal processor adapted to receive resonance signals from the coil arrangement for determining a water content present within the tube. The coil arrangement includes a resonance coil having a length-to-diameter ratio which is at least 3:1, and wherein the resonance coil includes at least 10 turns. | 2013-10-31 |
20130285678 | Filters, Filter Assemblies, Filter Systems and Methods for Identifying Installation of Qualified Filter Elements - A filter assembly has a qualified filter element that filters fuel, o filter housing for the qualified filter element and a water-in-fuel sensor that senses presence of water in the filter housing. An electrical resistance of the water-in-fuel sensor changes based upon whether the qualified filter element is installed in the housing. A filter assembly can also have a plurality of magnetic elements disposed on at least one of the filter housing and the qualified filter element. A plurality of wires are disposed on at least the other of the filter housing and the qualified filter element. The control circuit determines that the qualified filter element is installed in the filter housing based on a change in the electrical current in the plurality of wires. | 2013-10-31 |
20130285679 | On-Chip Resistor Calibration in Semiconductor Devices - According to one disclosed embodiment, an on-chip resistor calibration circuit includes an RC oscillator having a test resistor and a precision capacitor as elements, a counter, and a reference clock. In one embodiment, an RC oscillator generates a waveform having a period dependent upon the resistance of the test resistor and the capacitance of the precision capacitor. In such an embodiment, a counter and a reference clock may be configured to measure the period of the waveform. Using a pre-determined capacitance of the precision capacitor, a resistance of the test resistor may be determined. In another embodiment, an RC oscillator generates first and second waveforms through use of an additional capacitor that can be switched in and out of the RC oscillator circuit. Using a pre-determined capacitance of the precision capacitor, an RC product of the test resistor and the additional capacitor may be determined. | 2013-10-31 |
20130285680 | SYSTEMS AND METHODS FOR SINGLE-MOLECULE DETECTION USING NANOTUBES - A method for single-molecule detection is provided and uses a carbon nanotube having a probe entity attached thereto to define a first state of the carbon nanotube. The carbon nanotube is introduced to a target entity to define a second state of the carbon nanotube. The electrical conductance of the carbon nanotube in the first and second states is compared to detect the presence of a biomolecular entity. A system for single-molecule detection including a carbon nanotube is also provided. | 2013-10-31 |
20130285681 | Smart Package and Monitoring System with Indicator and Method of Making Same - There is provided a smart package and monitoring system having a status indicator and a method of making the same. The smart package includes an electronic sensor monitoring tag having re-usable electronic circuitry and power source along with a conductive grid printed on a thin flexible substrate and connected to the tag so the tag and grid are in electrical continuity to form a monitoring device. The conductive grid is aligned with an opening of the smart package. The smart package can also include an optical ink indicator configured to display the status of the package. A multiplexer can be used to connect the tag to the conductive grid. The conductive grid can include capacitive sensors formed on a thin plastic layer and positioned so as to form a capacitive element with the conductive side of the blister. | 2013-10-31 |
20130285682 | GAS SENSOR - A combined gas sensor includes a first electrode and a second electrode, wherein the first and second electrodes are connected via an ion-conducting material. The first electrode is covered, in part, by a first catalytically active material. Further, a resistive gas sensor formed by a third electrode is arranged such that the third electrode is in direct contact with the first catalytic material and is not in direct contact with the first electrode. | 2013-10-31 |
20130285683 | INTERNAL LINE REPLACEABLE UNIT HIGH INTENSITY RADIATED FIELD DETECTOR - Various embodiments for detecting a high Intensity radiated field (HIRF) in a line replaceable unit are provided. In an embodiment, the internal detector comprises a receiving means for receiving HIRF and generating an AC signal proportional to the HIRF, an RF filter configured to sample the AC signal to create a DC signal; and a detecting section configured to compare the DC signal with a threshold and output a result of the comparison to a built-in test section. The internal detector may be used to test EMI filter pin connectors of a closed line replaceable unit. | 2013-10-31 |
20130285684 | INSPECTION APPARATUS - An inspection apparatus includes a probe substrate, a socket secured to the probe substrate, a heating element wire wound around the socket, a probe tip detachably connected to the socket, a stage on which an object to be measured is mounted, and a heating unit for heating the stage. | 2013-10-31 |
20130285685 | SELF-CONTAINED, PATH-LEVEL AGING MONITOR APPARATUS AND METHOD - An aging monitor circuit that provides a more accurate estimate of aging and/or delay in a circuit and/or circuit path. The aging monitor circuit employs a separate aging path with driving and receiving flip flops (FFs) and a tunable replica circuit (TRC) to enable measurements of single-transition DC-stressed path delay that only propagates through stressed transistors or other circuit element(s). A finite state machine (FSM) in the aging monitor circuit is configured to adjust a frequency of a clock signal output by a digitally controlled oscillator (DCO) in response to an error signal output by the receiving FF. The error signal is generated in response to single transition DC-stressed path delay, and therefore enables the adjustment of the frequency of the clock signal to correspond to an amount or effect of the delay. | 2013-10-31 |
20130285686 | Systems and Methods for Thermal Control - The present invention relates generally to a system and a method for thermal control. More particularly, the invention encompasses an apparatus for thermal control and management of at least one device under test (DUT). The inventive thermal control and management apparatus also allows for the management of a plurality of devices under test, and with each device under test having its own testing regimen. The thermal control and management of the device under test (DUT) is managed using at least one thermoelectric element or cooler (TEC), which can be used to either heat or cool the corresponding device under test (DUT). | 2013-10-31 |
20130285687 | METHOD AND APPARATUS FOR CHARACTERIZING THERMAL MARGINALITY IN AN INTEGRATED CIRCUIT - Apparatus and methods are described herein for emulating the hot spot distribution of a functional test by applying vectors for structural test to an integrated circuit (IC). The affects of the hot spots can then be tested and characterized. The vectors may be generated on the IC, or may be fed to the IC via an external source. | 2013-10-31 |
20130285688 | LATERALLY DRIVEN PROBES FOR SEMICONDUCTOR TESTING - A method for testing a semiconductor device. The method comprises moving a probe in a vertical direction towards an electrical structure on a semiconductor device to position the probe alongside the electrical structure. A tip of the probe is positioned lower than an elevation of an outermost periphery of the electrical structure. The method also includes moving the probe in a lateral direction towards the electrical structure to contact the electrical structure. The probe tip mechanically and electrically engages the electrical structure. | 2013-10-31 |
20130285689 | METHOD FOR DETECTING WORKING STATE OF I/O PINS OF ELECTRONIC COMPONENTS - In a method for detecting working states of I/O pins of electronic components, a signal is transmitted between at least two of the I/O pins. A probe of an oscilloscope is connected to an I/O pin. A waveform of the signal through the I/O pin is detected. Charges are transmitted to the probe. A working state of the I/O pin is determined by detecting whether the waveform of the signal through the I/O pin is changed when the charges are transmitted to the probe. | 2013-10-31 |
20130285690 | STIFFENER PLATE FOR A PROBECARD AND METHOD - A microelectronic contactor assembly can include a probe head having microelectronic contactors for contacting terminals of semiconductor devices to test the semiconductor devices. A stiffener assembly can provide mechanical support to microelectronic contactors and for connecting a probe card assembly to a prober machine. A stiffener assembly may include a main body and a plurality of mounting points, wherein at least one of the mounting points is flexibly connected to the main body by one or more laterally extending beams that has a section modulus normal to the lateral direction significantly greater than in the lateral direction. The stiffener assembly allows for differential thermal expansion of various components of the microelectronic contactor assembly while minimizing accompanying dimensional distortion that could interfere with contacting the terminals of semiconductor devices. | 2013-10-31 |