50th week of 2013 patent applcation highlights part 18 |
Patent application number | Title | Published |
20130328483 | MICROWAVE ICP RESONATOR - A microwave resonator for inductively generating a plasma ( | 2013-12-12 |
20130328484 | CONNECTOR ADAPTER - Connector adapters that may allow contacts in a connector insert to form electrical connections with contacts in an incompatible connector receptacle. One example may provide a connector adapter for providing a connection between a connector insert and an incompatible connector receptacle. The connector adapter may be a magnetic connector providing a magnetic connector receptacle at a first end to accept a connector insert having an attraction plate. This connector adapter may further provide a connector insert having an attraction plate at a second end to insert into a magnetic connector receptacle on an electrical device. | 2013-12-12 |
20130328485 | APPARATUS AND METHOD FOR DRIVING FLUORESCENT LAMP - An apparatus and a method for driving a fluorescent lamp are provided. The apparatus submitted by the present invention includes an LC resonator and an automatic frequency tracing circuit. The LC resonator is used for receiving and converting a square signal to generate a sinusoidal driving signal for driving the fluorescent lamp. | 2013-12-12 |
20130328486 | Multiple Light Sensor Multiple Light Fixture Control - Systems and methods are disclosed to control light output at one or more light fixtures based on input from one or more light detectors. Embodiments of the invention may also be used for auto commissioning, personal control and/or day lighting. Some embodiments of the invention can be used to ensure that light output at the light fixtures provides a combined uniform photometric distribution within an architectural space. Moreover, embodiments of the invention can respond to changes to ambient light, which illuminates the architectural space from a window, door, or television, etc., in a smooth and non-oscillating way. Embodiments of the invention can be implemented in lighting systems employing multiple light fixtures having one or more light source and multiple light detectors. | 2013-12-12 |
20130328487 | METHOD FOR COMPENSATING AND CHECKING LIGHT AMOUNT OF LIGHT-EMITTING DEVICE - A method for compensating and checking a light amount is applicable to a light-emitting device including a plurality of light-emitting elements, and the following steps are successively executed on the light-emitting elements: measuring an original light amount output by a light-emitting element within a reference time interval; generating a calibration value corresponding to the light-emitting element according to the measured original light amount and a reference light amount; and adjusting light output of the light-emitting element according to the calibration value, so that the original light amount reaches a target light amount. | 2013-12-12 |
20130328488 | LED LIGHT STRING AND CONTROL METHOD THEREOF - A LED light string contains at least two LED light sets, an adjustable remote control, and a control host, each LED light set including at least one LED light series-connected, between the each LED light set and the control host being connected a transistor, wherein the adjustable remote control includes a button set, a subhost, and a TX transmitter module, the sub host includes a TX coding module f, and a variation of a pressed time and/or a pressing method of the control button generates a press signal received and coded by the TX coding module, a control signal is transmitted to the control host by the TX transmitter module to correspond to the press signal; the control host includes a RX receiver module and a host connected with the RX receiver module. | 2013-12-12 |
20130328489 | REMOTELY DISTRIBUTED POWER NETWORK FOR AN LED LIGHTING SYSTEM - The present disclosure is directed to a light emitting diode (LED) lighting system. In one embodiment, the LED lighting system includes an LED light source deployed in a first location and a power supply for powering the LED light source, wherein the power supply is remotely located from the LED light source in a second location and designed to power the LED light source to minimize a power loss along a length of an electrical connection coupled between the LED light source and the power supply. | 2013-12-12 |
20130328490 | LED LIGHT STRING AND CONTROL METHOD THEREOF - A LED light string contains an adjustable remote control and a control host connected with the LED light string, wherein the adjustable remote control includes a button set, a subhost MCU, and a TX transmitter module, the sub host includes a TX coding module, and a variation of a pressed time and/or a pressing way of the button set generates a press signal received and coded by the TX coding module; the control host includes a RX receiver module and a host MCU; the host MCU includes an AC 60 HZ/50 HZ synchronization over-zero module, a RF decoding analysis module, and a two-way controllable silicon driving circuit module, thus controlling a light flash of the LED light string. | 2013-12-12 |
20130328491 | ILLUMINATION APPARATUS AND POWER SUPPLY VOLTAGE MANAGEMENT METHOD THEREOF - An illumination apparatus includes a rectifier, a linear regulator, a lighting unit and a temperature sensing control circuit. The rectifier is connected to an AC supply voltage. The regulator is electrically connected to the rectifier and is adaptive to a first voltage. The lighting apparatus and the regulator form a circuit coupled to the AC power supply. The lighting unit has first and second loads having respective first and second lighting components adaptive to the first voltage. The control circuit can effectively sense the temperature of the regulator and thereby determines whether the first and second load are connected in series or in parallel. If the supply voltage is the first voltage, the first and second load is connected in parallel. If the supply voltage is a second voltage greater than the first voltage, the temperature sensing control circuit switches the first and second load to be connected in series. | 2013-12-12 |
20130328492 | ELECTRONIC DEVICE AND CONTROL CIRCUIT APPLIED THERETO - A control circuit for an electrical load in an electronic device includes a voltage divider, a current measurement circuit, a variable-current-output switch and a comparison circuit, the voltage entering the load and the voltage (and thus current) exiting from the load being monitored and compared to a reference voltage, any difference causing the switch to dynamically adjust the level of current being supplied, to protect the load from sudden variations in power supply and ensure a stable and constant supply of power. | 2013-12-12 |
20130328493 | SWITCHABLE LUMINANCE LED LIGHT BULB - A switchable luminance LED light bulb, including embodiments that may be used with any common commercial fitting. | 2013-12-12 |
20130328494 | System and Method for a Delayed Light Switch Network - A delayed light switch system and method is described herein. Such delayed light switch system can comprise a microphone in a first zone, a light switch, and a central computing system that connects to said microphone and said light switch, wherein said central computing system receives an audio signal from said microphone, said audio signal related to a sound detected by said microphone, waits for a delay time to pass, and transmits a first control signal to said light switch to turn said light switch on. | 2013-12-12 |
20130328495 | STAGE CIRCUIT AND EMISSION CONTROL DRIVER USING THE SAME - A stage circuit including an output unit for supplying first or second power source to an output terminal is disclosed. The stage circuit may comprise a bidirectional driver for respectively supplying signals supplied to first and second input terminals, a first driver, and a second driver. The second driver controls the output unit to output the second power source to the output terminal without any voltage loss, corresponding to a second clock signal. | 2013-12-12 |
20130328496 | LED DRIVER - An LED driver described herein can determine whether it is operating in z soft-start process by comparing a first threshold value and a soft-start reference value. In the soft-start process, the inductor current and the LED driving current can be soft-started periodically to effectively avoid current overshoot. In addition, the end of the soft-tart operation can be controlled based on a comparison result of the first threshold value and the reference value of the soft-start, and without any external settings. Thus, the end of soft-start operation can automatically be determined with strong controllability. | 2013-12-12 |
20130328497 | LIGHTING DEVICE AND LIGHTING FIXTURE - The controller changes an applied time (ON-time) of a DC voltage while keeping an intermittent period in which the DC voltage is supplied intermittently constant, when adjusting an average value of currents to a predetermined reference value or more, and changes a stopped time (OFF-time) of the DC voltage together with the intermittent period while keeping the applied time constant, when adjusting the average value to a value less than the predetermined reference value. Therefore, the lighting device can reduce variation in emission color compared with the conventional lighting device adopting DC Dimming Method, and can reduce variation in amount of light compared with the case where ON-time is changed until the dimming level reaches a lower limit. As a result, the lighting device can modulate light even at a low dimming level while reducing variation in emission color and variation in amount of light. | 2013-12-12 |
20130328498 | CIRCUITS AND METHODS FOR DRIVING LIGHT SOURCES - A controller for controlling power to a light source includes a first sensing pin, a second sensing pin, and a driving pin. The first sensing pin receives a first signal indicating an instant current through an energy storage element. The second sensing pin receives a second signal indicating whether the instant current decreases to a predetermined level. The driving pin provides a driving signal to a switch to control a current through the light source to a target level. The driving signal is generated based on one or more signals selected from the first signal and the second signal. The controller further includes an error amplifier for generating an error signal based on the first signal and a reference signal indicating the target level. The output of the error amplifier is coupled to a capacitor. | 2013-12-12 |
20130328499 | Method of Driving Display Device - An active matrix type EL display device is provided, which is capable of suppressing the unevenness of luminance display due to the unevenness of the characteristics of TFTs which constitute pixels, or due to variations in the environmental temperature at which the display device is used. The active matrix type EL display is driven by a time gray scale method, and is capable of keeping the drain current of each of its EL driving TFTs constant by operating each of the EL driving TFTs in a saturation region in an ON state. Accordingly, constant current can be made to flow in each of the EL elements, whereby it is possible to provide an active matrix type EL display device with accurate gray scale display and high image quality. | 2013-12-12 |
20130328500 | ILLUMINATION CONTROLLER AND ILLUMINATION SYSTEM INCLUDING SAME - An illumination controller, which is configured to control a light source unit, includes: a dial, which is rotatable, used to adjust a color temperature and a quantity of light irradiated from the light source unit, a memory which stores one or more control curves in which the color temperature and the quantity of light irradiated from the light source unit change in conjunction with each other; and a curve selection unit used to select one curve among the control curves stored in the memory. When the dial is rotated, the color temperature and the quantity of light irradiated from the light source unit change according to values defined on the control curve selected by the curve selection unit. | 2013-12-12 |
20130328501 | CONTROL DEVICE AND ILLUMINATION DEVICE - According to an embodiment, a control device includes a first calculator and a second calculator. The first calculator is configured to calculate a wavelength of light to be emitted from a light source whose emission intensity is controllable and which has at least one light emitting element at predetermined time intervals in a manner that adjusts the wavelength by a predetermined amount of change within a range of a first wavelength of light to be emitted at a start of adjustment to a second wavelength of light to be emitted at an end of the adjustment, the calculated wavelength being set as a third wavelength. The second calculator is configured to calculate an emission intensity of the light emitting element at the third wavelength. | 2013-12-12 |
20130328502 | Coordinated Visual Presentation Using Audience Display Devices - There is provided a system and method for a coordinated visual presentation using audience display devices. The method comprises determining a plurality of variables, wherein each of the plurality of variables include at least one process for execution by a first audience display device, determining a macro command including at least one of the plurality of variables, and transmitting the macro command for storage by the first audience display device. The method may further comprise transmitting a first trigger signal, wherein the first trigger signal includes a countdown timer for the initiating the macro command, and transmitting a second trigger signal, wherein the second trigger signal includes a second countdown timer for initiating the macro command, and wherein the second countdown timer includes the first countdown timer modified to account for a time difference between the receiving the first trigger signal and the receiving the second trigger signal. | 2013-12-12 |
20130328503 | ILLUMINATION CONTROLLER AND ILLUMINATION SYSTEM INCLUDING SAME - An illumination controller controls a light source unit having multiple types of light sources that emit light of different colors. The controller including: a dial, which is rotatable, used to adjust a color temperature and an illuminance of light irradiated from the light source unit; a memory which stores one or more control curves in which the color temperature and the illuminance of light irradiated from the light source unit change in conjunction with each other; and an adjustment unit used to adjust one of the control curves stored in the memory. Thus, when the dial is rotated, the color temperature and the illuminance of light irradiated from the light source unit change according to values determined by the control curve which is adjusted by the adjustment unit. | 2013-12-12 |
20130328504 | OPTICAL WAVEFORM GENERATOR - An optical high speed Arbitrary Waveform Generator (AWG) comprising a trigger module configured to receive binary signals and generate a trigger output in response, a digital waveform shaper (DWS) module configured to be programmed by a digital waveform and convert it to analog waveform, an amplifier module configured to amplify the analog waveform, a load adapter module configured to match the electrical impedance of the amplifier module to the electrical impedance of a light source, a TEC controller and a voltage supply module adapted to supply voltage to the trigger module, the digital waveform shaper module, the amplifier module, and the load adapter and the TEC controller. | 2013-12-12 |
20130328505 | Dimmer for Dimmable Drivers - A dimmer for dimmable drivers. | 2013-12-12 |
20130328506 | DRIFT TUBE LINEAR ACCELERATOR - According to the drift tube linear accelerator of the invention, its acceleration cavity is configured with a center plate and a pair of half cylindrical tubes, wherein the center plate includes a ridge, stems connecting the ridge and drift tube electrodes, and the drift tube electrodes, and wherein the acceleration cavity is configured, as seen in cross section perpendicular to a beam-acceleration center axis, whose inner diameter in X-direction that is perpendicular to a central axis in planar direction in which the stem of the center plate extends and that is passing through the beam-acceleration center axis, is longer than whose inner diameter in Y-direction parallel to the central axis in planar direction. | 2013-12-12 |
20130328507 | DAMPING CIRCUIT FOR AN ENERGY STORAGE DEVICE AND METHOD FOR DAMPING OSCILLATIONS OF THE OUTPUT CURRENT OF AN ENERGY STORAGE DEVICE - A damping circuit for an energy storage device. The damping circuit comprises a current detection device designed to detect an output current of energy supply strings or the energy storage device and to generate an output current signal dependent on the output current. The damping circuit also includes a closed-loop control circuit coupled to the current detection device. The closed-loop control circuit designed to adjust the output current signal to a setpoint current signal and to output a corresponding current control signal. A first winding of a transformer is coupled to an output connection of the energy storage device. A second winding is galvanically isolated from the first winding. A compensation current generation device is coupled to the closed-loop control circuit, and is designed to feed a compensation current into the second winding of the transformer depending on the current control signal. | 2013-12-12 |
20130328508 | METHOD FOR CONTROLLING INTERIOR PERMANENT MAGNET SYNCHRONOUS MOTOR - Disclosed is a method for controlling a permanent magnet synchronous motor to maximize use of voltages of a battery by voltage phase control within weak magnetic flux area and to achieve compensation for a torque error through a torque compensator when driving the permanent magnet synchronous motor for hybrid vehicles. In particular, the method controls a permanent magnet synchronous motor so that voltage use can be maximized in a weak magnetic flux area by using voltage near maximum voltage through voltage phase control utilizing magnetic flux-based map data receiving a torque command and motor speed/batter output voltage as inputs and torque error can be compensated using a torque compensation filter when a motor constant is changed in the weak magnetic flux by a circumstance parameter, when the permanent magnet synchronous motor mounted in a hybrid vehicle and an electric vehicle is driven. | 2013-12-12 |
20130328509 | METHOD FOR OPERATING MOTOR OF MOTOR-DRIVEN POWER STEERING - A method for operating a motor of a motor-driven power steering (MDPS) includes: generating, by an inverter operating unit, a two-phase operation command by projecting a Q-axis command onto a two-phase operation axis, when an error occurs in any one of three phases; converting, by the inverter operating unit, coordinates of the two-phase operation command into an actual operation axis; calculating, by the inverter operating unit, a two-phase operation voltage by performing proportional integral (PI) control on the two-phase operation command converted into the actual operation axis; and operating, by the inverter diving unit, a motor by applying the two-phase operation voltage to an inverter unit. | 2013-12-12 |
20130328510 | MOTOR DRIVE METHOD, MOTOR DRIVE DEVICE, AND BRUSHLESS MOTOR - A method for driving a motor including a stator wound with a coil and a rotor rotatably disposed and confronting the stator, whereby the coil is energized and driven at energizing timing of which phase is determined based on an advance angle amount to rotate the rotor. At this time, it is determined whether or not a power supply voltage supplied to the motor exceeds a predetermined voltage, and when it is determined that the power supply voltage exceeds the predetermined voltage, the advance angle amount is changed to increase a current amount flowing through the coil, for energizing and driving the coil. | 2013-12-12 |
20130328511 | ELECTRIC AUTOMOBILE - An electric vehicle includes an inverter unit and an ECU. The inverter unit or the ECU includes a magnetic force estimator that estimates a magnetic force of a permanent magnet structure associated with a motor rotor of a motor unit. The inverter unit or the ECU may also include a determiner for the estimated magnetic force and an abnormalities-responsive motor drive limiter. The estimator is configured to estimate, according to a predefined rule, the magnetic force, based on at least two detection signals selected from a group consisting of a detection signal indicating a rotational frequency of the motor unit, a detection signal indicating a motor voltage of the motor unit and a detection signal indicating a motor current of the motor unit. | 2013-12-12 |
20130328512 | ELECTRIC AUTOMOBILE, IN-WHEEL MOTOR DRIVE DEVICE, AND MOTOR CONTROL METHOD - An electric vehicle is proposed which can achieve early detection of abnormal short-circuit of motor coils, thus avoiding various driving problems. The electric vehicle includes a motor unit configured to drive a wheel. The motor unit includes a synchronous motor with three-phase motor coils. The three-phase motor coils include a first motor coil, a second motor coil and a third motor coil of different phases. One end of the first motor coil, one end of the second motor coil and one end of the third motor coil are connected with each other at a neutral point in a star connection. The electric vehicle also includes an abnormal short-circuit monitor configured to detect an abnormal short-circuit of the motor coils, and also includes an abnormalities-responsive disconnection unit configured to electrically disconnect the motor coils from the neutral point. | 2013-12-12 |
20130328513 | METHOD FOR AUTOMATICALLY CONTROLLING AN ELECTROHYDRAULIC PRESSING TOOL - In the case of a method for automatically controlling an electrohydraulic pressing tool, in particular for producing pipe connections, to actuate the pressing tool a hydraulic piston is moved, in that fluid is pumped into a hydraulic cylinder by a hydraulic pump driven by an electric motor. When a limiting pressure in the hydraulic cylinder is reached, a pressure relief valve opens, and so the hydraulic fluid can flow into a reservoir. With the aid of a control device, a current drop at the motor is detected when the valve opens. The electric motor is switched off when the current falls by a predetermined value (ΔI) and/or decreases over a predetermined time period (Δt) after reaching a limiting current. | 2013-12-12 |
20130328514 | Power Inverter - An electric power converter is provided with a plurality of power-conversion elements; a first control circuit that outputs a first control signal; an electricity storage circuit; a second control circuit that outputs a second control signal when the direct-current power source that supplies electrical power to the first control circuit is not normal; and a drive circuit that outputs drive signals for driving the plurality of power-conversion elements. Each of the power-conversion elements is either a power-conversion element of the upper arm connected to the high-voltage side or a conversion element of the lower arm connected to the low-voltage side. In cases when the voltage of the electricity storage circuit is at a higher predetermined first voltage value, the second control circuit outputs a second control signal so that all the power-conversion elements of the upper arm or the lower arm are turned on and the others are turned off. | 2013-12-12 |
20130328515 | MOTOR DRIVE ADD-ON PRE-CHARGE CAPACITIVE MODULE AND METHOD - A method for pre-charging a motor drive system includes: pre-charging a motor drive through a motor DC bus where desired, pre-charging an add-on capacitive module through a resistor after a time delay, pre-charging the add-on capacitive module and bypassing the resistor, and disconnecting the add-on capacitive module from the motor DC bus when a fault condition has been detected. | 2013-12-12 |
20130328516 | METHOD AND POSITION DETECTION APPARATUS FOR DETECTING A POSITION OF A MOVABLE ELEMENT OF A DRIVE APPARATUS - A method for detecting a position of a movable element of a drive apparatus by means of a position detection apparatus comprising at least one field coil and at least one secondary coil associated with the field coil, wherein an electrical excitation pulse is applied to the field coil in order to induce an electrical voltage in the secondary coil, a secondary coil voltage is measured and the position of the movable element is determined on the basis of the measured secondary coil voltage. The invention also relates to a position detection apparatus and/or a drive apparatus. | 2013-12-12 |
20130328517 | FPDA Closed Loop Electric Drives Controls - A control system for a switched reluctance (SR) machine is provided. The control system may include a converter circuit that is operatively coupled to the SR machine, and a controller in communication with the converter circuit. The controller may be configured to execute two or more processes in parallel, wherein the processes include generating a torque command based on one or more of bus voltage, machine current, rotor speed and rotor position, determining a first set of current control parameters based on the torque command and the rotor speed, determining a second set of current control parameters based on one or more of the torque command, the rotor speed and the rotor position, selecting one of the first and second sets of current control parameters based on the rotor speed, and operating the gates according to the selected set of current control parameters. | 2013-12-12 |
20130328518 | Switch Type DC Electric Machine Having Auxiliary Excitation Winding And Conduction Ring And Brush - The present invention provides an auxiliary excitation winding set to be installed at the rotary part of the electric machine ( | 2013-12-12 |
20130328519 | Switch Type DC Electric Machine Having Auxiliary Excitation Winding And Conduction Ring And Brush - The present invention provides an auxiliary excitation winding set to be installed at the rotary part of the electric machine ( | 2013-12-12 |
20130328520 | FLASH CHARGING PROTECTION CIRCUIT AND CONTROL METHOD THEREOF - A flash charging protection circuit and a control method thereof adapted to a charging circuit coupled to a power supply are provided. An analog-to-digital converter receives a feedback voltage output from the charging circuit and an input voltage output from the power supply. A power voltage detection module detects whether the input voltage is abnormal or not. A charging state detection module detects whether a rising curve of the feedback voltage is abnormal or not. If a controller receives a power abnormal signal or a charging state abnormal signal, the controller disables a pulse width modulation signal generator to produce a pulse width modulation signal. | 2013-12-12 |
20130328521 | EXTERNAL BATTERY-MANAGEMENT MODULE - A power supply for use in a portable electronic device is described. This power supply includes battery cells in separate locations that are electrically coupled by a power bus to a battery-management circuit board, which includes an integrated circuit with control logic that monitors the battery cells and that regulates charging and discharging of the battery cells. The battery cells are not enclosed in a common battery-pack housing so that the battery cells are mechanically separate from each other. Moreover, the battery-management circuit board is external to the battery cells and is not enclosed in the battery-pack housing. By excluding the battery-pack housing from the power supply, there may be more space available to expand the sizes, and thus the total capacities, of the battery cells. | 2013-12-12 |
20130328522 | BATTERY CHARGING AND MAINTAINING WITH DEFECTIVE BATTERY MONITORING - The present disclosure relates to a system for charging or maintaining a battery that includes power conversion circuitry configured to provide output power for charging or maintaining the battery. The system also includes electrical conductors coupled to the power conversion circuitry and configured to be coupled to the battery for charging or maintaining the battery. Additionally, the system includes control circuitry coupled to the power conversion circuitry and configured to monitor charging or maintaining of the battery. The control circuitry is further configured to determine whether the battery may be defective or failing based upon the output power and a time threshold. | 2013-12-12 |
20130328523 | BATTERY CHARGER AND CHARGING TERMINAL STRUCTURE - The battery charger has a socket that is tubular, has a bottom, and accepts a rechargeable battery inserted to the socket. At least one side wall of the socket is an inclined surface that is inclined to the vertical when a bottom of the battery charger is placed on a horizontal surface. A charging terminal of the battery charger is disposed on this side wall. | 2013-12-12 |
20130328524 | RECHARGEABLE BATTERY PACK - A rechargeable battery pack, or accumulator pack, for instance for a hearing instrument, has a minimal installation size and high energy density. The accumulator pack has at least one rechargeable battery cell, charging electronics, signal electronics, and signal contacts. An encapsulation protects against moisture and contamination. The signal electronics transforms an output voltage of the battery cell into a predetermined voltage, which is made available by two signal contacts outside of the encapsulation. The transformation of the voltage enables the battery systems to be used with various battery and/or cell voltages. Li-ion battery systems, which generally operate with 3.7 volts, can thus also be used in hearing instruments, which generally operate with an operating voltage of 1.2 volts. The encapsulation of the accumulator pack is particularly advantageous in this context of the higher voltages. | 2013-12-12 |
20130328525 | AUTO DETECTION OF VEHICLE TYPE CONNECTED TO AN EVSE - Apparatus and methods for discerning information about a vehicle (e.g., an electric vehicle's make, model, and/or year of manufacturer) being charged by an electric vehicle supply equipment (“EVSE”). Vehicle make, model, and model year can be discerned by measuring charging current supplied to the electric vehicle over time and comparing this profile to stored profiles of known electric vehicles. Vehicle information can also be discerned by monitoring a pilot signal sent to the electric vehicle by the EVSE. When the EVSE is ready to charge the electric vehicle, the pilot signal sends a charge-ready indication. When the electric vehicle is ready to be charged, it sends an acknowledgement. The time between the EVSE indicating it is ready to charge and the electric vehicle acknowledging that it is ready to be charged is measurable and can used to identify an electric vehicle make, model, and model year. | 2013-12-12 |
20130328526 | COMPACT CAR CHARGER - A car charger plug is slidably mounted within a body of the compact car charger. The car charger plug is lockable in a fully retracted position and lockable in a fully extended position, so as to maintain its compact size when not in use, and provide a secure connection with a car charge port when desired. | 2013-12-12 |
20130328527 | APPARATUS FOR BIDIRECTIONAL ELECTRIC POWER SUPPLY BETWEEN ELECTRIC VEHICLE AND SMART GRID AND METHOD OF BIDIRECTIONALLY SUPPLYING ELECTRIC POWER EMPLOYING THE SAME - A bidirectional electric power supplying apparatus comprises a bidirectional charger connected to a smart grid for supplying an electric power to a high-voltage battery of an electric vehicle or supplying the electric power from the high-voltage battery to the smart grid; and a battery management system (“BMS”) controlling a charge of the high-voltage battery and being connected to the bidirectional charger, the BMS controlling the bidirectional charger to supply the electric power from the grid to the high-voltage battery or supply the electric power from the high-voltage battery to the grid. If the mode is set as the smart mode, in consideration of whether the current time is the smart time or the midnight time zone, the electric power is supplied from the high-voltage battery to the grid or supplied from the grid to the high-voltage battery. | 2013-12-12 |
20130328528 | POWER LINE COMMUNICATION SYSTEM - Provided is a power line communication system in which power line communication devices having different configurations from each other coexist. A charging station performs power line communication, using a signal superimposition/separation section in which a capacitor, a coupling transformer, and a capacitor are connected to branch lines branched from two AC lines. An electric vehicle performs power line communication, using a signal superimposition/separation section in which the coupling transformer is inserted in one AC line and a capacitor is connected to and between two AC lines. In a case where the charging station and the electric vehicle are connected to each other with a charging cable, a closed loop circuit is formed that is composed of the AC line, the branch line, the capacitor, a primary coil of the coupling transformer, the capacitor, the branch line, the AC line, an AC line, the AC line, the capacitor, a primary coil of a coupling transformer, the AC line, and an AC line. Thus, power line communication can be performed. | 2013-12-12 |
20130328529 | SYSTEM AND METHOD FOR BALANCING MULTI-CELL BATTERY SYSTEMS - A battery balancing system including two battery modules connected in series, wherein each module is coupled to a balancing circuit. The balancing circuit is selectively operable between two modes: a dissipative mode, wherein the balancing circuit is connected in parallel to the respective battery module and dissipates energy from the battery module as light; and a latent mode, wherein the balancing circuit is disconnected from the battery module. A method of balancing a battery, including: charging a module of the battery, the module including at least one electrochemical cell; monitoring a system parameter indicative of the module charge; determining that a dissipation condition has been met based on the system parameter; and connecting a balancing circuit to the module upon determination of the dissipation condition being met, wherein the balancing circuit dissipates energy from the battery module as light. | 2013-12-12 |
20130328530 | ELECTRICAL ENERGY STORAGE UNIT AND CONTROL SYSTEM AND APPLICATIONS THEREOF - An electrical energy storage unit and control system, and applications thereof. In an embodiment, the electrical energy storage unit includes a battery system controller and battery packs. Each battery pack has battery cells, a battery pack controller that monitors the cells, a battery pack cell balancer that adjusts the amount of energy stored in the cells, and a battery pack charger. The battery pack controller operates the battery pack cell balancer and the battery pack charger to control the state-of-charge of the cells. In an embodiment, the cells are lithium ion battery cells. | 2013-12-12 |
20130328531 | Charge Rate Modulation of Metal-Air Cells as a Function of Ambient Oxygen Concentration - A method for charging a metal-air battery pack at the maximum possible rate while maintaining an ambient oxygen concentration below a preset concentration is provided, thereby minimizing the risks associated with generating oxygen during the charging cycle. | 2013-12-12 |
20130328532 | MULT-CHANNEL CONSTANT VOLTAGE AND CONSTANT CURRENT CONVERTING CONTROLER AND APPARATUS - A multi-channel constant voltage and constant current converting controller is provided. It comprises a multi-channel balance circuit and an error amplifier circuit. The multi-channel balance circuit receives a first voltage signal and load current detecting signals and outputs a second voltage signal and amplifying load current detecting signals. The error amplifier circuit receives the second voltage signal, the amplifying load current detecting signals and a reference voltage and outputs an error amplifying signal. The error amplifier circuit outs the error amplifying signal according to the reference voltage and the maximum value between the second voltage signal and amplifying load current detecting signals. | 2013-12-12 |
20130328533 | LEAKAGE CURRENT REDUCTION IN AN INTEGRATED CIRCUIT - An integrated circuit is provided with operational mode header transistors which connect a virtual power rail to a VDD power supply. A controller circuit, responsive to a sensed voltage signal from a voltage sensor which reads the virtual rail voltage VVDD, generates a control signal which controls the operational mode transistors. The control signal is derived from an interface voltage power supply that provides higher voltage VDD IO than the VDD power supply and thus able to overdrive the operational mode transistors via either a gate bias voltage or a bulk bias voltage. The amount of leakage through the operational mode transistors is controlled in a closed loop feedback arrangement so as to maintain a predetermined target value or range for the virtual rail voltage. The operational mode transistor may also be controlled to support dynamic voltage and frequency scaling. | 2013-12-12 |
20130328534 | METHOD OF CONTROLLING A POWER CONVERTING DEVICE AND RELATED CIRCUIT - A method of controlling a power converting device which includes an inductor, a first switch coupled between an input end and a first node of the inductor, a second switch coupled between a second node of the inductor and ground, a third switch coupled between the first node of the inductor and ground and a fourth switch coupled between the second node of the inductor and an output end includes generating a pulse width modulation signal according to an output voltage of the output end, a switch current of the first switch and a ramp voltage; and controlling the first switch, the second switch, the third switch and the fourth switch according to the pulse width modulation signal and a clock signal. | 2013-12-12 |
20130328535 | CURRENT OUTPUT STAGE HAVING AUTOMATIC ACTIVE-PASSIVE SWITCHING - The invention relates to a current output stage ( | 2013-12-12 |
20130328536 | DC-DC CONVERTING CIRCUIT - A DC-DC converter converts an input voltage into an output voltage and includes an input terminal, an output terminal, a power stage, a switch driving circuit, a charge pump, and a capacitor. The power stage includes a high-side switch, a low-side switch and an inductor. The switch driving circuit generates a high-side switch driving signal and a low-side switch driving signal. The charge pump generates a first polarity current according to the high-side switch driving signal, and generates a second polarity current having an opposite polarity to the first polarity current according to the low-side switch driving signal. The capacitor generates a first voltage by integrating the first and second polarity currents generated by the charge pump. The switch driving circuit generates the high-side switch driving signal and the low-side switch driving signal according to a difference between the first voltage and a reference voltage. | 2013-12-12 |
20130328537 | BUCK CONVERTER WITH REVERSE CURRENT PROTECTION, AND A PHOTOVOLTAIC SYSTEM - A buck converter is disclosed comprising a series combination of high-side and low-side switches, and including a protection switch in anti-series with the high-side switch. The protection switch is controlled by means of a shutter switch, which is powered from the output of the converter and gated from the half bridge node of the converter. | 2013-12-12 |
20130328538 | DC CURRENT SENSING UTILIZING A CURRENT TRANSFORMER - A DC/DC converter includes an internal transistor and a current sensor that is operable to sense a current passing through the transistor. The DC/DC converter also includes an output current estimator module that estimates the output current based on the sensed transistor current. | 2013-12-12 |
20130328539 | SYSTEM FOR TRANSFERRING ENERGY FROM AN ENERGY SOURCE AND METHOD OF MAKING SAME - A system for transferring energy from an energy source includes a first energy source, a DC link coupled to a DC load, a first DC-to-DC voltage converter coupled to the DC link, and a second DC-to-DC voltage converter coupled to the first energy source. A controller is coupled to the first and second DC-to-DC voltage converters and configured to determine a voltage level of the first energy source and of the DC link. If the voltage level of the DC link is less than the voltage level of the first energy source, the controller controls the second DC-to-DC voltage converter to draw energy from the first energy source to cause the DC voltage output from the first energy source and supplied to the first DC-to-DC voltage converter to be below the DC load voltage supplied to the DC link via the first DC-to-DC voltage converter. | 2013-12-12 |
20130328540 | BUCK SWITCHING REGULATOR AND CONTROL CIRCUIT THEREOF - The present invention discloses a buck switching regulator and a control circuit thereof, wherein the buck switching regulator converts an input voltage to an output voltage. The buck switching regulator includes: a power stage including an upper-gate switch, a lower-gate switch and an inductor, which are coupled to a switching node, wherein the upper-gate switch is electrically connected to the input voltage; a transistor electrically connected between the inductor and the output voltage; and a driver circuit, which controls the upper-gate switch and the lower-gate switch at least according to a current flowing through the transistor. | 2013-12-12 |
20130328541 | SUB-MODULE OF A MODULAR MULTI-STAGE CONVERTER - A sub-module for a modular multi-stage converter has an energy store and a power semiconductor series circuit connected in parallel to the energy store. In the semiconductor series circuit, two power semiconductor switches that can be activated and deactivated and have the same forward direction are connected in series. A free-wheeling diode is connected in parallel and in the opposite direction to each power semiconductor switch. A first connection terminal is connected to the energy store. A second connection terminal is connected to a potential point between the power semiconductor switches and to the free-wheeling diodes thereof. A bridging switch is disposed between the connection terminals for bridging the sub-module. The power semiconductors thereof are not destroyed upon closing the bridging switch and at least one connection terminal and/or a bridging branch that connects the two connection terminals to each other has an inductive component. | 2013-12-12 |
20130328542 | Voltage Generator and Bandgap Reference Circuit - A voltage generator includes a first transistor, a second transistor, an operational amplifier, a capacitor, a third transistor, a fourth transistor and a first resistor. The operational amplifier includes a first terminal coupled to a second terminal of the first transistor, and a second terminal coupled to a second terminal of the second transistor. The capacitor is coupled between an output terminal of the operational amplifier and a ground terminal. The third transistor is coupled to the first transistor and the output terminal of the operational amplifier. The fourth transistor is coupled to the second transistor, the output terminal of the operational amplifier and the ground terminal. The first resistor is utilized for generating a complementary to absolute temperature voltage according to a voltage difference between a gate-source voltage of the third transistor and a gate-source voltage of the fourth transistor. | 2013-12-12 |
20130328543 | MINIATURIZE VOLTAGE-TRANSFORMING DEVICE - A miniaturized voltage-transforming device includes a first circuit board and a second circuit board parallel to and separated from each other by a predetermined distance so that there is no physical connection therebetween, and a transformer having a plurality of primary-side pins and a plurality of secondary-side pins, wherein the transformer is located beside the first circuit board and the second circuit board, and has its primary-side pins and secondary-side pins directly or indirectly connected to the first circuit board and the second circuit board physically, so that the transformer is electrically connected to the first circuit board and the second circuit board via the primary-side pins and the secondary-side pins. | 2013-12-12 |
20130328544 | HOME APPLIANCE HAVING BUILT-IN POWER METER - An appliance is disclosed that includes operation unit that is mounted in a case of the appliance that is supplied power by an external power supply and that includes at least one of a motor and a heating member. The appliance further includes a control circuit mounted in the case of the appliance and configured to control the operation unit to perform appliance functionality that is different than measuring power. The appliance further includes a power meter coupled to the control circuit, built into the case, and configured to measure power consumed by the appliance in performing the appliance functionality. | 2013-12-12 |
20130328545 | END CAP FOR TEST SWITCH IN WATT HOUR METER HOUSING - An end barrier that may be retroactively attached to a test switch is shown. End barrier includes extending caps to cover screws which are used to fasten the test switch to a utility box. | 2013-12-12 |
20130328546 | Power Line Takeoff Clamp Assembly - In a power line takeoff clamp assembly and method of use thereof an electrical power distribution line is clamped to a body of the clamp assembly. A power takeoff supported by the body clamped to the power line generates direct current from alternating current flowing in the power line. One or more sensors supported by the body clamped to the power line sense one or more values related to an electrical current flowing in a power line. A wireless transceiver supported by the body clamped to the power line communicates data regarding the one or more sensed values. Each sensor and the wireless transceiver utilize direct current generated by the power takeoff for the operation thereof. | 2013-12-12 |
20130328547 | Current Shunt - Methods and circuits for reduction of errors in a current shunt are disclosed, for example sensing lines for Kelvin sensing in which the sensing lines are of identical material to the high-resistance portions of the shunt, and welded thereto. This allows application of a current shunt with lower output voltage and thus lower power losses than the contemporary art implementations, while maintaining high accuracy with regard to temperature changes. | 2013-12-12 |
20130328548 | Method And Device For AC/DC Sensitive Current Measurement - The invention relates to a method and a device ( | 2013-12-12 |
20130328549 | ROTATING MOBILE PROBE AND PROBING ROD USING THE SAME - A probing rod includes a main casing and a rotating mobile probe, and the rotating mobile probe includes a conductive tube, a needle and a rotating mobile structure, and the conductive tube is contained in the main casing; the rotating mobile structure includes an outer thread formed on the needle and an inner thread formed on the conductive tube, and the outer thread and the inner thread are screwed with each other, such that the needle can perform a linear movement with respect to the conductive tube. Therefore, the needle can be moved with respect to the main casing to achieve the effect of adjusting the length of the probe that extends out from the main casing. | 2013-12-12 |
20130328550 | MAGNETIC SENSOR ARRANGEMENT - A magnetic sensor arrangement for determining information indicative of characteristics of a mechanical component has a first magnetic sensor to sense a signal associated with a periodic changing magnetic field generated by relative movement of the mechanical component and the magnetic sensor arrangement, a second magnetic sensor to sense that signal, wherein the first sensor is arranged a fixed distance from the second sensor, and a determination unit coupled to the first and second sensors to receive output signals of the first and second sensors. The output signal of the first sensor is phase-shifted to the output signal of the second sensor, to compare the output signals for determining the absolute phase of the signal associated with the periodic changing magnetic field, and to determine information indicative of characteristics of the mechanical component based on the determined absolute phase of the signal associated with the periodic changing magnetic field. | 2013-12-12 |
20130328551 | APPARATUS FOR DETERMINING THE POSITION OF THE ROTOR OF AN ELECTRICAL MACHINE - An apparatus for determining the position of the rotor of an electric machine in relation to the stator, wherein the electric machine has at least three winding phases, which each have at least one pole winding with a magnetizable core, with devices for detecting a measurement signal. The instantaneous degrees of magnetization of the pole winding cores influenced by the magnetic field of the rotor, depend on the position of the rotor. The devices for detecting the measurement signal for tapping off the measurement signal are provided exclusively outside the electric machine at connecting conductors used for energizing the electric machine. Preferably, switching devices for temporarily isolating at least one of the connecting conductors from an operating voltage source are provided, wherein the measurement signal can be tapped off at the connecting conductor which has been isolated from the operating voltage source. | 2013-12-12 |
20130328552 | ELECTROMAGNETIC PUSHING AND KNOCKING-TYPE OBJECT DETECTOR - A level sensor, particularly an electromagnetic pushing and knocking-type object detector, comprising: a magnetic swinging rod, an electromagnet that is disposed on one side of the magnetic swinging rod, and an electronic module that controls the electromagnet in driving the magnetic swinging rod to swing, and amplifies, processes, and time-delay outputs the swinging signals of the magnetic swinging rod, which swinging signals are collected by the electromagnet, said magnetic swinging rod is suspended with a suspension device on one side of a main housing, and the electromagnet, which is composed of an electromagnet iron core and an electromagnet coil, is disposed inside the main housing. The electric module comprises a power supply circuit, a pulse generation circuit, a pulse driving circuit, a signal amplification circuit, a signal processing circuit, and a signal time delay output circuit, and the aforementioned circuits are all disposed in the main housing or are isolated from the main housing and enclosed separately. The present invention has the advantages of high sensitivity, accuracy, and reliability; has a wide range of applications; is maintenance-free; and features a long service life. | 2013-12-12 |
20130328553 | DEVICES AND METHODS FOR DETECTION OF SLIPPAGE OF MAGNETIC COUPLING IN IMPLANTABLE MEDICAL DEVICES - A device for the detection of slippage of magnetic coupling between an implanted medical device having a magnet and an externally applied magnetic field includes at least one external magnet configured to apply the externally applied magnetic field, an induction coil disposed external to the subject and between the at least one external magnet and the implanted medical device, and a detection circuit operatively coupled to the induction coil and configured to detect slippage between the rotational orientation of the magnet of the implanted device and the externally applied magnetic field based at least in part on the varying frequency components of the voltage waveform across the induction coil. | 2013-12-12 |
20130328554 | VRS INTERFACE WITH 1/T ARMING FUNCTION - A variable reluctance sensor system for processing a variable reluctance sensor signal including an arming comparator and an arming circuit. The arming comparator compares the variable reluctance sensor signal with an arming threshold which decreases proportional to 1/t from a predetermined maximum level and asserts an armed signal when the variable reluctance sensor signal reaches the arming threshold. The arming threshold may be decreased based on a scaling factor multiplied by 1/t to ensure detection of each pulse of the variable reluctance sensor signal. The arming threshold may decrease to a predetermined minimum level sufficiently low to intersect the variable reluctance sensor signal and sufficiently high relative to an expected noise level. The arming threshold is reset in response to a timing event, such as zero crossing of the variable reluctance sensor signal. | 2013-12-12 |
20130328555 | PULSED EDDY CURRENT SENSOR FOR PRECISION LIFT-OFF MEASUREMENT - There is described a pulsed eddy current sensor for measurement of a lift-off distance over a surface of a metallic substrate (a metallic surface). The pulsed eddy current sensor comprises: a primary excitation coil to which are applied voltage pulses for generating primary magnetic fields, wherein an interaction of the primary magnetic fields with the metallic substrate produces secondary magnetic fields; and secondary pick-up probes, each of the secondary pick-up probes located at a different vertical distance from the metallic surface, the secondary pick-up probes used for measuring the primary and secondary magnetic fields and for producing a differential signal that is representative of the lift-off distance. | 2013-12-12 |
20130328556 | MINIMUM MAGNETIC FIELD DETECTION SYSTEMS AND METHODS IN MAGNETORESISTIVE SENSORS - Embodiments relate to magnetoresistive sensors suitable for both angle and field strength sensing. In an embodiment, a sensor comprises two different magnetoresistive (xMR) sensor components for sensing two different aspects or characteristics of a magnetic field. In an embodiment, the first xMR sensor component is configured for magnetic field angle or rotation sensing, while the second xMR sensor component is configured for magnetic field strength sensing. In an embodiment, the second xMR sensor component is configured for magnetic field strength sensing in two dimensions. The second xMR sensor therefore can determine, in embodiment, whether the field sensed with respect to angle or rotation by the first xMR sensor component is of sufficient strength or meets a minimum magnitude threshold. If the minimum threshold is not met, an alarm or alert can be provided. | 2013-12-12 |
20130328557 | NUCLEAR MAGNETIC RESONANCE PROBE SYSTEM - One embodiment includes a nuclear magnetic resonance (NMR) sensor system. The system includes a pump laser configured to generate an optical pump beam at a first wavelength and a probe laser configured to generate an optical probe beam at a second wavelength that is different from the first wavelength. The system also includes beam optics configured to direct the pump laser and the probe laser along orthogonal axes through a sensor cell comprising an alkali metal vapor. The system further includes detection optics that include a photodetector assembly configured to measure at least one characteristic associated with the optical probe beam leaving the sensor cell for measurement of a polarization vector of the alkali metal vapor. The detection optics can include at least one filter configured to filter light having the first wavelength and to pass light having the second wavelength to the photodetector assembly. | 2013-12-12 |
20130328558 | NMR Crystallography Methods for Three-Dimensional Structure Determination - The invention relates to new uses of nuclear magnetic resonance (NMR) crystallography methods to determine and/or characterize the three-dimensional structure of compounds of interest. | 2013-12-12 |
20130328559 | HIGH RESOLUTION HIGH CONTRAST MRI FOR FLOWING MEDIA - An MRI device for providing high-contrast, high-resolution images of a fluid. The device includes: an envelope for at least partially confining the fluid; a plurality of magnets located at least partially around the envelope; and a CPU to process the images, including a computer readable medium containing instructions for generating at least one third image superimposing at least one image of the first images with at least one image of the second images, whereby a high-contrast, high-resolution real-time continuous images of the fluid is obtained. | 2013-12-12 |
20130328560 | HIGH RESOLUTION HIGH CONTRAST MRI FOR FLOWING MEDIA - An MRI device for providing high-contrast, high-resolution images of a fluid. The device includes: an envelope for at least partially confining the fluid; a plurality of magnets located at least partially around the envelope; and a CPU to process the images, including a computer readable medium containing instructions for generating at least one third image superimposing at least one image of the first images with at least one image of the second images, whereby a high-contrast, high-resolution real-time continuous images of the fluid is obtained. | 2013-12-12 |
20130328561 | NMR MEASUREMENTS OF GLYCA - Biomarkers and/or risk assessments identify patients having an increased risk of certain clinical disease states including, for example, CHD, type 2 diabetes, dementia, or all-cause death (ACD) using NMR signal to measure a level of “GlycA” in arbitrary units or in defined units (e.g., μmol/L) that can be determined using a defined single peak region of proton NMR spectra. The GlycA measurement can be used as an inflammation biomarker for clinical disease states. The NMR signal for GlycA can include a fitting region of signal between about 2.080 ppm and 1.845 ppm of the proton NMR spectra. | 2013-12-12 |
20130328562 | METHOD FOR CHARACTERIZING A SAMPLE BY NMR SPECTROSCOPY WITH ACQUISITION DURING THE GENERATION OF A RADIOFREQUENCY MAGNETIC FIELD - The invention relates to a method for characterizing a sample ( | 2013-12-12 |
20130328563 | HIGH RESOLUTION HIGH CONTRAST MRI FOR FLOWING MEDIA - An MRI device for providing high-contrast, high-resolution images of a fluid. The device includes: an envelope for at least partially confining the fluid; a plurality of magnets located at least partially around the envelope; and a CPU to process the images, including a computer readable medium containing instructions for generating at least one third image superimposing at least one image of the first images with at least one image of the second images, whereby a high-contrast, high-resolution real-time continuous images of the fluid is obtained. | 2013-12-12 |
20130328564 | NMR RF PROBE COIL EXHIBITING DOUBLE RESONANCE - The present invention describes NMR probe coils that are designed to operate at two different frequencies, producing a strong and homogenous magnetic field at both the frequencies. This single coil, placed close to the sample, provides a method to optimize the NMR detection sensitivity of two different channels. In addition, the present invention describes a coil that generates a magnetic field that is parallel to the substrate of the coil as opposed to perpendicular as seen in the prior art. The present invention isolates coils from each other even when placed in close proximity to each other. A method to reduce the presence of electric field within the sample region is also considered. Further, the invention describes a method to adjust the radio-frequency tuning and coupling of the NMR probe coils. | 2013-12-12 |
20130328565 | RADIO-FREQUENCY TRAPS AND METHODS OF COMMON-MODE ENERGY DAMPING - Radio-frequency (RF) traps and methods of common-mode energy damping are provided. One RF trap includes a body and a shutter holder rotatably coupled within the body, wherein the shutter holder is configured to rotate within the body about a longitudinal axis. The RF trap further including a magnetic flux shutter coupled to the shutter holder, wherein the magnetic flux shutter rotates within the body with the shutter holder to align the magnetic flux shutter at an angle within the body. | 2013-12-12 |
20130328566 | METHOD OF TESTING SECONDARY BATTERY - A method of testing a secondary battery includes first to fourth steps. At the first step, the secondary battery after manufacture is charged to a first voltage. At the second step, a second voltage lower than the first voltage is set as a target voltage and discharge or charge is performed in a constant-current constant-voltage mode before the secondary battery is left standing. At the third step, the open circuit voltage of the secondary battery is measured before and after the secondary battery is left standing. At the fourth step, it is determined whether the secondary battery is a conforming item or not based on the difference in the open circuit voltage before and after the secondary battery is left standing. | 2013-12-12 |
20130328567 | BATTERY-TYPE DETERMINATION APPARATUS, BATTERY-TYPE DETERMINATION METHOD, AND ELECTRONIC APPARATUS - A battery-type determination apparatus includes a battery installation unit equipped with battery connection terminals in which a battery is installed, a voltage detector that detects a voltage generated by Seebeck effect between a battery connection terminal and an electrode of the battery, a temperature rise controller that raises a temperature at a contact point between the electrode of the battery and the battery connection terminal, and a type determination unit that determines a type of the battery installed in the battery installation unit, based on the voltage detected by the voltage detector with the temperature risen at the contact point. | 2013-12-12 |
20130328568 | VOLTAGE DETECTION APPARATUS AND METHOD OF REDUCING DISPERSION OF DARK CURRENTS - A voltage detection apparatus includes a plurality of voltage detection units, each of which detects cell voltages of plural cells in each of blocks in a battery module. Each of blocks includes the plural cells connected in series. The plurality of voltage detection units are respectively supplied with power via power supply lines connected to the blocks. The plurality of voltage detection units are respectively provided with a plurality of current increase units for increasing dark currents so that the dark currents flowing through the power supply lines respectively become a same target value. | 2013-12-12 |
20130328569 | Method And Arrangement For An Internal Failure Detection In A Y-Y Connected Capacitor Bank - A method for detecting an internal failure in a capacitor bank connected to a power system, wherein the capacitor bank includes a plurality of capacitor units that are divided into two Y sections. Each phase in each of the Y sections define a leg and each leg includes series and/or parallel-connected capacitor units. The internal failure may occur in one or more capacitor elements or units or involve one or more legs. The method includes measuring the phase current in one of the phases, calculating the root mean square value, denoted by RMS, of the measured phase currents, measuring the unbalance current between the two sections, calculating the RMS value of the measured unbalance currents, and detecting the phase angle between the measured phase current and the measured unbalance current. | 2013-12-12 |
20130328570 | TEST DEVICE FOR TESTING DISC PLAYER - A test device is used for testing a disc player, the disc player includes a power terminal and an audio output terminal The power terminal outputs a supply voltage when the disc player reads a disc. The test device includes a detecting unit connected to the power terminal and the audio output terminal, the detecting unit being powered by the supply voltage to detect whether the audio output terminal outputs a digital audio signal and generate a first level signal when the detecting unit detects that the audio output terminal outputs the digital audio signal; and a processing unit responding to the first level signal by determining that the audio output terminal of the disc player successfully outputs the digital audio signal. | 2013-12-12 |
20130328571 | Method And Device For Insulation Monitoring Comprising A Signal Quality Display - A method and to a device for insulation monitoring in ungrounded electrical direct or alternating current networks includes coupling in a measuring signal between active conductors of the network to be monitored and ground and registration of measured values of the measuring signal. The registered measured value of the measuring signal is determined in the form of a signal quality value which is displayed on a display. | 2013-12-12 |
20130328572 | APPLICATION OF ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY IN SENSOR SYSTEMS, DEVICES, AND RELATED METHODS - A diagnostic Electrochemical Impedance Spectroscopy (EIS) procedure is applied to measure values of impedance-related parameters for one or more sensing electrodes. The parameters may include real impedance, imaginary impedance, impedance magnitude, and/or phase angle. The measured values of the impedance-related parameters are then used in performing sensor diagnostics, calculating a highly-reliable fused sensor glucose value based on signals from a plurality of redundant sensing electrodes, calibrating sensors, detecting interferents within close proximity of one or more sensing electrodes, and testing surface area characteristics of electroplated electrodes. Advantageously, impedance-related parameters can be defined that are substantially glucose-independent over specific ranges of frequencies. An Application Specific Integrated Circuit (ASIC) enables implementation of the EIS-based diagnostics, fusion algorithms, and other processes based on measurement of EIS-based parameters. | 2013-12-12 |
20130328573 | APPLICATION OF ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY IN SENSOR SYSTEMS, DEVICES, AND RELATED METHODS - A diagnostic Electrochemical Impedance Spectroscopy (EIS) procedure is applied to measure values of impedance-related parameters for one or more sensing electrodes. The parameters may include real impedance, imaginary impedance, impedance magnitude, and/or phase angle. The measured values of the impedance-related parameters are then used in performing sensor diagnostics, calculating a highly-reliable fused sensor glucose value based on signals from a plurality of redundant sensing electrodes, calibrating sensors, detecting interferents within close proximity of one or more sensing electrodes, and testing surface area characteristics of electroplated electrodes. Advantageously, impedance-related parameters can be defined that are substantially glucose-independent over specific ranges of frequencies. An Application Specific Integrated Circuit (ASIC) enables implementation of the EIS-based diagnostics, fusion algorithms, and other processes based on measurement of EIS-based parameters. | 2013-12-12 |
20130328574 | INDUCTION PAD - An induction pad includes a first induction layer, a second induction layer and a spacer layer. The second induction layer has at least one second sparse induction zone and at least one second dense induction zone. The spacer layer is disposed between the first induction layer and second induction layer, and includes at least one high pressure spacer zone and at least one low pressure spacer zone. The second induction layer is pressed downwards upon receiving a load to compress the spacer layer and contact the first induction layer to generate electric connection, thereby detecting the pressed location. Through the dense induction zone and sparse induction zone distributed on the second induction layer whether a person is lay on a bed can be judged to reduce faulty judgments, and the posture of the person can be detected to better understand conditions of the person lay on the bed. | 2013-12-12 |
20130328575 | TOUCH SENSOR AND METHOD OF MANUFACTURING THE SAME - Disclosed herein are a touch sensor and a method of manufacturing the same. The touch sensor includes: a transparent substrate; a resin layer formed on one surface of the transparent substrate; and an electrode formed on one surface of the resin layer, wherein one surface of the resin layer is formed with a substrate prominence and depression part having a prominence and depression shape. | 2013-12-12 |
20130328576 | MEASUREMENT OF TRANSISTOR GATE SOURCE CAPACITANCE ON A DISPLAY SYSTEM SUBSTRATE USING A REPLICA TRANSISTOR - Better performance can be provided for a display system that has semiconductor microelectronic components such as demultiplexors, gate line and data line drivers, and pixel switches formed on the display substrate, e.g., a glass substrate that constitutes part of an active matrix display panel. A gate source capacitance of a constituent transistor of one of these microelectronic components, e.g., a pixel thin film transistor (TFT) that is part of a particular display element, may be measured using a replica component that emulates the behavior of the component. | 2013-12-12 |
20130328577 | CAPACITANCE-TYPE OCCUPANT DETECTION SENSOR - A capacitance-type occupant detection sensor of the present disclosure detects a vehicle occupant on a seat based on a difference of capacitance between a sensor body and a reference electric potential. The sensor body includes a main electrode and a parallel electrode. The parallel electrode is disposed in parallel with the main electrode with a gap interposed therebetween and has a detection voltage applied thereto. The main electrode and the parallel electrode each have a base material, a first electrode member disposed on the base material, and a second electrode member disposed on the base material to cover the first electrode member, where the second electrode member has an electric conductivity that is lower than the first electrode member. The first electrode member is disposed on a lateral perimeter of the second electrode member to surround a center of the second electrode member. | 2013-12-12 |
20130328578 | APPLICATION OF ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY IN SENSOR SYSTEMS, DEVICES, AND RELATED METHODS - A diagnostic Electrochemical Impedance Spectroscopy (EIS) procedure is applied to measure values of impedance-related parameters for one or more sensing electrodes. The parameters may include real impedance, imaginary impedance, impedance magnitude, and/or phase angle. The measured values of the impedance-related parameters are then used in performing sensor diagnostics, calculating a highly-reliable fused sensor glucose value based on signals from a plurality of redundant sensing electrodes, calibrating sensors, detecting interferents within close proximity of one or more sensing electrodes, and testing surface area characteristics of electroplated electrodes. Advantageously, impedance-related parameters can be defined that are substantially glucose-independent over specific ranges of frequencies. An Application Specific Integrated Circuit (ASIC) enables implementation of the EIS-based diagnostics, fusion algorithms, and other processes based on measurement of EIS-based parameters. | 2013-12-12 |
20130328579 | Monitoring Method - A method for monitoring the effectiveness of an ion exchange module in an ultrapure water purification circuit containing ultrapurified water and having a purified water inlet and a point of use outlet and a memory, the method including the steps of measuring the resistivity of ultrapurified water using one or more sensors to provide an ultrapurified benchmark resistivity value R | 2013-12-12 |
20130328580 | TEST CIRCUIT FOR POWER SUPPLY UNIT - Atest circuit includes a test unit and a converting unit. The test unit includes a first connector connected to a power supply unit, a second connector connected to a motherboard, a sensing resistor, a controller, and an electronic switch. Two input pins of the controller are connected to two ends of the sensing resistor. A first terminal of the electronic switch is connected to the first connector through the sensing resistor. A second terminal of the electronic switch is connected to a control pin of the controller. A third terminal of the electronic switch is connected to the second connector. The converting unit includes a third connector connected to a monitoring device and a converter. Two input pins of the converter are connected to two output pins of the controller. Two data pins of the converter are connected to the third connector. | 2013-12-12 |
20130328581 | APPARATUS AND METHOD FOR AUTOMATED TESTING OF DEVICE UNDER TEST - An apparatus and a method for automated testing of electrostatic discharge of a Device Under Test (DUT) are provided. In the apparatus and the method, an electrostatic pulse is applied to the DUT, a malfunction type is detected from the DUT, and a control command is transmitted to the DUT to return a test mode of the DUT to a normal mode according to the detected malfunction type. | 2013-12-12 |
20130328582 | Methods and Apparatus for Performing Wafer-Level Testing on Antenna Tuning Elements - A test system for testing an antenna tuning element is provided. The test system may include a tester, a test fixture, and a probing structure. The probing structure may include probe tips configured to mate with corresponding solder bumps formed on a device under test (DUT) containing an antenna tuning element. The DUT may be tested in a shunt or series configuration. The tester may be electrically coupled to the test probe via first and second connectors on the test fixture. An adjustable load circuit that is coupled to the second connector may be configured in a selected state so that a desired amount of electrical stress may be presented to the DUT during testing. The tester may be used to obtain measurement results on the DUT. Systematic effects associated with the test structures may be de-embedded from the measured results to obtain calibrated results. | 2013-12-12 |