05th week of 2014 patent applcation highlights part 20 |
Patent application number | Title | Published |
20140028181 | ORGANIC LIGHT-EMITTING DISPLAY DEVICE - An organic light-emitting display device including a first organic light-emitting device including a first pixel electrode, a first organic emission layer (EML) for emitting white light, and an opposite electrode; a first color filter between an insulating layer and the first pixel electrode, and transmitting blue light; a second organic light-emitting device including a second pixel electrode, the first organic EML for emitting white light, and the opposite electrode; a second color filter between the insulating layer and the second pixel electrode, and transmitting green light; a third organic light-emitting device including a third pixel electrode, a second organic EML for emitting a mixture light including a red color and a blue color, and the opposite electrode; and a third color filter between the insulating layer and the third pixel electrode, and including a first region for transmitting red light and a second region for transmitting the mixture light. | 2014-01-30 |
20140028182 | METHOD OF LIGHT DISPERSION AND PREFERENTIAL SCATTERING OF CERTAIN WAVELENGTHS OF LIGHT FOR LIGHT-EMITTING DIODES AND BULBS CONSTRUCTED THEREFROM - A light emitting diode (LED) bulb configured to scatter certain wavelengths of light. The LED bulb includes a base having threads, a bulb shell, at least one LED, and a plurality of particles disposed within the bulb shell. The plurality of particles has a first and second set of particles. The first set of particles is configured to scatter short wavelength components of light emitted from the at least one LED and has particles with an effective diameter that is a fraction of the dominant wavelength of the light emitted from the at least one LED. The second set of particles is configured to scatter light emitted from the at least one LED, and has particles with an effective diameter equal to or greater than the dominant wavelength of the light emitted from the at least one LED. | 2014-01-30 |
20140028183 | High-pressure discharge lamp - Various embodiments provide a high-pressure discharge lamp. The high-pressure discharge lamp may include a discharge vessel; and an electrode, which is secured in one end of the discharge vessel, the electrode having a stem designed as an elongated pin-shaped body, the electrode being part of an electrode system that also comprises a lead-through, with the aid of which the end of the discharge vessel is sealed in a gas-tight manner; wherein at least the stem includes an electrically conductive ceramic boride of a metal that comprises at least lanthanum, cerium, yttrium or ytterbium, alone or in combination. | 2014-01-30 |
20140028184 | CONTROL OF UNIFORMITY IN A SURFACE WAVE PLASMA SOURCE - A surface wave plasma source (SWPS) is disclosed, having an electromagnetic (EM) wave launcher including a slot antenna configured to couple EM energy in a desired EM wave mode to a plasma by generating a surface wave on a plasma surface of the SWPS adjacent the plasma. The SWPS also includes a dielectric window positioned below the slot antenna, having a lower surface and the plasma surface. The SWPS further includes an attenuation assembly disposed between the slot antenna and the plasma surface. The attenuation assembly includes a first fluid channel substantially aligned with a first arrangement of slots in the slot antenna, and is configured to receive a first flow of a first fluid at a first fluid temperature. The SWPS finally includes a power coupling system coupled to the EM wave launcher and configured to provide EM energy to the EM wave launcher for forming the plasma. | 2014-01-30 |
20140028185 | POWER SUPPLY CIRCUIT - A power supply circuit includes a rectifying circuit, a transformer, and a current controller. The rectifying circuit is configured to rectify power of an AC power supply and supply the power to a light source. The transformer is electrically disposed between the AC power supply and the rectifying circuit. The transformer includes a primary winding and an auxiliary winding. The current controller is configured to adjust an amount of current flowing to the light source by detecting a voltage signal of the auxiliary winding and a signal based on the current flowing to the light source. | 2014-01-30 |
20140028186 | Proximity-Based Wireless Lighting System - The invention is an induction-based lighting system designed to provide power to model displays and other similar applications. The first part of the system is the wireless Power Mat that is placed under the model houses and used as the base for the village, and contains a primary winding that interacts with secondary windings placed inside display components to provide lighting effects, such as one finds in model Christmas villages. The electrical characteristics of the primary winding can be controlled by a microcontroller to make lights in the models blink or change as a user desires. | 2014-01-30 |
20140028187 | POWER SUPPLY DEVICE, LIGHTING DEVICE, LIGHTING FIXTURE USING THE SAME, AND VEHICLE - In a power supply device according to the embodiment, a second capacitor is inserted between a terminal of a capacitor at the high voltage side and an input terminal. Therefore, when earth fault is occurred at an output terminal of the low voltage side, an input side connected to a DC power supply is galvanically separated from an output side connected to a load by the second capacitor. As a result, earth fault current does not flow continually. Accordingly, the power supply device can reduce current leakage flowing through circuit to zero or near zero in the case where electric leakage is occurred, and therefore can prevent problems (the circuit's malfunction or the like) associated with the electric leakage. | 2014-01-30 |
20140028188 | DISCHARGE LAMP ELECTRONIC BALLAST LUMINAIRE AND VEHICLE WITH SAME - Discharge lamp electronic ballast includes DC-DC converter circuit for converting voltage of DC power supply to output DC power, inverter circuit for converting DC power into AC power to supply it to discharge lamp, output feedback control circuit for controlling DC-DC converter circuit, and inverter driving signal generator circuit for controlling inverter circuit. Ballast includes microcomputer having voltage detecting function for detecting voltage value of DC power supply, and ballast temperature detector circuit for detecting temperature of ballast. Microcomputer sets first time based on voltage value of DC power supply and detection result of ballast temperature detector circuit, and reduces power supplied to the discharge lamp if first time elapses from time point when lamp is started, thereby supplying lamp with power for stable operation. | 2014-01-30 |
20140028189 | Architectures for LED Lighting Assemblies - A modular light emitting diode (LED), remote phosphor, and other lighting technologies lighting assembly includes a plurality of lighting subassemblies and a power supply electrically coupled with the plurality of lighting subassemblies in parallel such that each of the plurality of lighting subassemblies receives electrical power from the power supply in parallel with the other of the plurality of lighting subassemblies. | 2014-01-30 |
20140028190 | ADJUSTABLE SLOT ANTENNA FOR CONTROL OF UNIFORMITY IN A SURFACE WAVE PLASMA SOURCE - The present invention provides a surface wave plasma source including an electromagnetic (EM) wave launcher comprising a slot antenna having a plurality of antenna slots configured to couple the EM energy from a first region above the slot antenna to a second region below the slot antenna, and a power coupling system is coupled to the EM wave launcher. A dielectric window is positioned in the second region and has a lower surface including the plasma surface. A slotted gate plate is arranged parallel with the slot antenna and is configured to be movable relative to the slot antenna between variable opacity positions including a first opaque position to prevent the EM energy from passing through the first arrangements of antenna slots, and a first transparent position to allow a full intensity of the EM energy to pass through the first arrangement of antenna slots. | 2014-01-30 |
20140028191 | LED DRIVER - Lighting systems are disclosed, including a multi-die LED array; and LED driver electronics, which include voltage regulating electronics which regulate rectified low voltage AC. The voltage regulating electronics include: booster electronics that sense rectified low voltage AC and boost the LVAC to a predetermined voltage for powering the multi-die LED; power factor correcting electronics that sense the AC current and AC voltage in the driver and control the booster electronics to further regulate the voltage, thereby providing power factor correction; and constant current electronics which sense one or both of current and voltage through the driver and control the booster electronics to further regulate the voltage, thereby providing substantially constant current to the multi-die LED array. | 2014-01-30 |
20140028192 | Field Emission Devices and Methods of Making Thereof - In one embodiment of the present invention, an electronic device includes a first emitter/collector region and a second emitter/collector region disposed in a substrate. The first emitter/collector region has a first edge/tip, and the second emitter/collector region has a second edge/tip. A gap separates the first edge/tip from the second edge/tip. The first emitter/collector region, the second emitter/collector region, and the gap form a field emission device. | 2014-01-30 |
20140028193 | LIGHT SOURCE DIMMING CONTROL CIRCUIT - The present invention provides a light source dimming control circuit, which includes a voltage signal generator for generating a first voltage signal between a predetermined voltage level and a ground level; a reference voltage signal generator for generating a reference voltage signal at an output end according to the first voltage signal and a second voltage signal; a first switch with a first end coupled to an output end of alight source; a first resistor with a first end coupled to a second end of the first switch, and a second end coupled to a ground end; a switch controller coupled to the first switch and the voltage signal generator for controlling on/off states of the first switch according to a sawtooth signal and the first voltage signal; and a current controller for controlling current flowing through the first resistor according to the reference voltage signal. | 2014-01-30 |
20140028194 | DETECTION CIRCUIT AND DETECTION METHOD - A detection circuit according to embodiments includes a first circuit and a second circuit. The first circuit is turned OFF when an AC voltage to be input to a pair of input terminals is smaller than a prescribed value, and is turned ON when the AC voltage is equal to or higher than the prescribed value. The second circuit detects whether the AC voltage is an AC voltage leading-edge controlled by a dimmer, an AC voltage trailing-edge controlled by the dimmer, or an AC voltage having a continuous phase on the basis of at least one of the value of voltage and a gradient of the first circuit when the first circuit is turned ON while the first circuit is in the OFF state. | 2014-01-30 |
20140028195 | PORTABLE ELECTRIC LAMP WITH A POWER SUPPLY CURRENT CONTROL DEVICE AND METHOD FOR CONTROLLING A POWER SUPPLY CURRENT OF SUCH A LAMP - A portable electric lamp including a lighting module, a compact housing enclosing an electric power storage unit configured to provide a power supply current to the lighting module, means for measuring a current consumed by the lighting module, determination means configured to generate a lighting current set point, calculation means for calculating a maximum authorized current from a difference between the consumed current and a reference current and for calculating a maximum authorized current threshold from the minimum value between the lighting current set point and the maximum authorized current, and limiting means configured to limit the power supply current to a value lower than or equal to the maximum authorized current threshold. | 2014-01-30 |
20140028196 | LIGHTING DEVICE, LIGHTING APPARATUS USING THE SAME, AND LIGHTING SYSTEM - A control unit controls an operation of an electric power conversion unit so that load current that flows through a light source load becomes a constant value, using electric power setting value that is used to determine a size of electric power that is supplied to the light source load and a current detection value that is detected by a current detection resistor (current detection unit), and a load electric power calculation unit obtains load electric power of the light source load using the electric power setting value and a voltage detection value that is detected by a voltage detection unit, and an input electric power estimation unit corrects a circuit loss for the obtained load electric power and estimates input electric power. | 2014-01-30 |
20140028197 | LIGHTING DEVICE WITH VARIABLE COLOR RENDERING BASED ON AMBIENT LIGHT - The present disclosure relates to an LED-based lighting component that can control the color rendering capability of its generated light based on the presence or characteristics of ambient light. In one embodiment, the lighting component may employ at least two different types of LEDs to generate light. Control circuitry of the lighting component is able to monitor ambient light and drive the LEDs based on an ambient light characteristic that is indicative of the CRI of the ambient light. If the ambient light characteristic is indicative of the ambient light having a lower CRI, the control system will drive the LEDs to emit light with a defined CRI. If the ambient light characteristic is indicative of the ambient light having a higher CRI, the control system will drive the LEDs to emit light with a reduced CRI, which is lower than the defined CRI. | 2014-01-30 |
20140028198 | APPARATUS AND METHOD OF OPERATING A LUMINAIRE - An illumination system verifies whether one or more aspects of an output signal provided by a photosensitive transducer fall within a threshold of an expected value for the aspect. The aspect may include a sunrise time, a sunset time, a dawn time, a dusk time, a solar noon time, a solar midnight time, or similar. Upon verification the illumination system uses a microcontroller to adjust one or more output parameters of a solid-state light source responsive to the output signal provided by the photosensitive transducer. Where verification is not possible, the illumination system uses the microcontroller to adjust one or more output parameters of the solid-state light source responsive to a schedule. | 2014-01-30 |
20140028199 | METHODS, SYSTEMS, AND APPARATUS FOR PROVIDING VARIABLE ILLUMINATION - Digital Control Ready (DCR) is a two-way open standard for controlling and managing next-generation fixtures. A DCR-enabled lighting fixture responds to digital control signals from a separate digital light agent (DLA) instead of analog dimming signals, eliminating the need for digital-to-analog signal conditioning, fixture-to-fixture variations in response, and calibration specific to each fixture. In addition, a DCR-enabled lighting fixture may also report its power consumption, measured light output, measured color temperature, temperature, and/or other operating parameters to the DLA via the same bidirectional data link that carries the digital control signals to the fixture. The DLA processes these signals in a feedback loop to implement more precise lighting control. The DCR-enabled lighting fixture also transforms AC power to DC power and supplies (and measures) DC power to the DLA via a DCR interface. These features enable intelligent, networked DCR lighting systems operate with lower power (energy) consumption, greater flexibility, and simpler installation than other intelligent lighting networks. | 2014-01-30 |
20140028200 | LIGHTING AND INTEGRATED FIXTURE CONTROL - Radio frequency-enabled lighting-fixture management systems, apparatus, and methods are described. One implementation includes a wireless communication component and a controller that is integrated into the radio frequency-enabled lighting-fixture management unit. The controller is configured to obtain operational values of a luminaire driver or a luminaire. The controller is further configured to provide the obtained operational values to the wireless communication component for transmission. | 2014-01-30 |
20140028201 | LED STRING WITH A CAPABILITY TO MAINTAIN A CURRENT PATH AND LED UNIT THEREOF - An LED string with a capability to maintain a current path has multiple LED units electrically connected in series. Each of the LED units has a base, a holder, a bridge device, a cover and an LED device. The base has two conductive pads. The holder and the cover are mounted in the base. The bridge device is mounted in the holder. The LED device is mounted in the cover. The bridge device and the LED device are electrically connected in parallel and contact the conductive pads. When the LED device is damaged, the bridge device still contacts the conductive pads. Hence, the bridge device provides a path that allows a current to flow through the conductive pads. | 2014-01-30 |
20140028202 | Dimming way for led - A new dimming way is to change output voltage for LED or OLED lamp corresponding to dimming percentage without turn on and off LED or OLED lamp; The dimming control signal can come from a keyboard, a phase dimmer, a dimmer button or a computer; The dimming control signal can be sent to controller through PWM signal, phase dimmer or I2C; The output load can be LED lamp or OLED lamp. | 2014-01-30 |
20140028203 | LED DRIVER CIRCUIT - A high efficiency AC LED driver circuit has a rectifier unit, an LED light string, multiple voltage controlled transistors, a current detection unit, and a power efficiency control unit. The rectifier unit is connected to an AC power and converts the AC power into a pulsating DC power. The LED light string is connected to the rectifier unit and has multiple LED units. The voltage controlled transistors are respectively and electrically connected to each LED unit and form multiple shunt circuits. The current detection unit is electrically connected to the voltage controlled transistors. The power efficiency control unit is electrically connected to the current detection unit, series nodes between the LED units and the control terminals of the voltage controlled transistors; wherein the power efficiency control unit adjusts loop current based on a voltage drop of each LED unit. | 2014-01-30 |
20140028204 | LIGHT EMITTING DEVICE FOR AC POWER OPERATION - Exemplary embodiments of the present invention disclose a light-emitting device including a first power source connection terminal and a second power source connection terminal, the first and second power source connection terminals configured to be connected to an external power source, and a plurality of light emitting cell arrays, each of the plurality of light emitting cell arrays being connected in parallel to one another between the first and the second power source connection terminals, each of the plurality of light emitting cell arrays comprising serially connected light emitting cells. Each of the light emitting cells includes a first conductivity-type semiconductor layer, a second conductivity-type semiconductor layer, an active layer disposed between the first conductivity-type semiconductor layer and the second conductivity-type semiconductor layer, and an electrode pad disposed on the second conductivity-type semiconductor layer. | 2014-01-30 |
20140028205 | LED Controller with Current-Ripple Control - An LED controller and a method for controlling an LED device is disclosed. A current sense signal is representative of a load current flowing through the LED device. The current sense signal is compared with an upper threshold value and a lower threshold value. Current is provided to the LED device via an inductor coupled in series with the LED device when the current sense signal exceeds the upper threshold. A load current loop is closed over a free-wheeling diode when no current is provided to the LED device while the current sense signal is below the lower threshold. The upper threshold and the lower threshold are adjusted dependent on the current sense signal such that peak values of the current sense signal match corresponding desired peak values. | 2014-01-30 |
20140028206 | APPARATUS FOR CONTROLLING LED STRING - An apparatus for controlling an LED string is provided, in Which each high voltage (HV) N-type device has one end electrically connected or coupled with the corresponding LED unit and the other end coupled with a corresponding low voltage (LV) current limit switch via a corresponding path. The LV current limit switch is switched according to the voltage or current detected on the path. Since the current flowing through the HV N-type device increases or decreases with that flowing through the corresponding LV current limit switch, the HV N-type device will be indirectly controlled. | 2014-01-30 |
20140028207 | SINGLE INDUCTOR CONTROL OF MULTI-COLOR LED SYSTEMS - A circuit for driving multiple light emitting diodes (LEDs) includes at least two sets of LEDs, each set comprised of one or more LEDs in series. The circuit further includes a single inductor connected in series with the two sets of LEDs. At least one set of LEDs is connected to a shunting transistor connected in parallel with the set of LEDs. The duty cycle of the shunting transistor is controlled by a single controller connected to the shunting transistor and the inductor. | 2014-01-30 |
20140028208 | LIGHT SOURCE ELECTRONIC TRANSFORMER - Apparatus and methods for a light source electronic transformer. In an embodiment, a lamp includes a light source and an electronic ballast. The electronic ballast includes a main power converter, a controllable starter circuit, a transformer, a ballast control integrated circuit (IC) connected to the controllable starter circuit and having an output connected to the transformer, and an IC power converter connected to the transformer and having an output connected to the ballast control IC. When the light source is to be switched ON, the controllable starter circuit receives power from the main power converter and provides a high energy output. The ballast control IC outputs a power control signal to the transformer that illuminates the light source and the transformer to provide supply power to the IC power converter. The electronic ballast is configured such that after the light source illuminates the controllable starter circuit powers OFF. | 2014-01-30 |
20140028209 | INTERFACE CIRCUIT AND INTERFACE METHOD - Disclosed is an interface circuit including a rectifier circuit, a detection circuit, a first circuit, and a second circuit. The rectifier circuit rectifies an AC voltage input between a pair of input terminals. The detection circuit detects the AC voltage and outputs the result as a detection voltage. The first circuit is controlled to be turned on or off on the basis of an input first control signal, to cause a first current to flow between the input terminals in an on state and to cut off the first current in an off state. The second circuit is controlled to be turned on or off on the basis of an input second control signal, to allow a second current greater than the first current to flow between the input terminals in an on state and to cut off the second current in an off state. | 2014-01-30 |
20140028210 | WALL-MOUNTABLE LUMINAIRE AND ASSOCIATED SYSTEMS AND METHODS - A wall-mountable luminaire may include interchangeable adapter plugs having first and second male connectors, the first of which connects electrically and mechanically to an external electrical socket, and the second of which connects electrically and mechanically to an on-board multi-standard socket. A power supply may detect a plurality of electrical power types received from the multi-standard socket, and may condition that input power to drive LEDs. Remote computing devices may transmit control data wirelessly to direct a controller to selectively operate the LEDs to form a modified distribution pattern. A housing assembly may support wall mounting of the luminaire, and trim assembly may define a cavity that provides aesthetic and protective cover for the components carried by the housing assembly. A method aspect of the invention details steps for operating the luminaire. | 2014-01-30 |
20140028211 | FLYBACK AC-TO-DC CONVERTER - Techniques and corresponding circuitry and drivers are disclosed for improving power factor (PF) and total harmonic distortion (THD) of a flyback power factor correction (PFC) topology operating in transition-mode. In one or more embodiments, the PF and THD are improved by correcting the on-time of the switching element of the flyback PFC topology to actively shape the wave of the PFC input current. In some embodiments, the on-time is corrected using a phase-lock-loop module that synchronizes with the rectified input line voltage signal and a output regulator module that corrects the switch on-time. The control may be implemented using a digital or an analog controller. | 2014-01-30 |
20140028212 | CONSTANT CURRENT LED DRIVER - The LED driver includes a rectifier, a switching circuit and a feedback circuit. The rectifier connects an AC power source and outputting DC power. The switching circuit connects the DC power of the rectifier to switch the DC power with pulse width modulation (PWM) and has an output end for connecting a load and a feedback control end. The feedback circuit is connected between the output end and the feedback control end of the switching circuit for controlling a duty cycle of the switching circuit depending on an output current of the output end to keep the output current constant. | 2014-01-30 |
20140028213 | ACTIVE THERMAL PROTECTION FOR SWITCHES - A system and method include a controller that reduces power dissipated by a switch, such as a source-controlled field effect transistor, when an estimated amount of power dissipated by the switch exceeds a predetermined threshold. Reducing the power dissipated by the switch prevents damage to the switch due to overheating. The controller determines the estimated amount of power dissipated by the switch using actual drain-to-source current and drain voltage data. In at least one embodiment, the controller includes a fail-safe, estimated power dissipation determination path that activates when the drain voltage data fails a reliability test. Additionally, in at least one embodiment, the controller includes a model of thermal characteristics of the switch. In at least one embodiment, the controller utilizes real-time estimated power dissipation by the switch and the model to determine when the estimated power dissipated by the switch exceeds a power dissipation protection threshold. | 2014-01-30 |
20140028214 | SYSTEMS AND METHODS FOR LOW-POWER LAMP COMPATIBILITY WITH A TRAILING-EDGE DIMMER AND AN ELECTRONIC TRANSFORMER - A controller may be configured to: (i) predict based on an electronic transformer secondary signal an estimated occurrence of a high-resistance state of a trailing-edge dimmer coupled to a primary winding of an electronic transformer, wherein the high-resistance state occurs when the trailing-edge dimmer begins phase-cutting an alternating current voltage signal; (ii) operate a power converter in a trailing-edge exposure mode for a first period of time immediately prior to the estimated occurrence of the high-resistance state, such that the power converter is enabled to transfer energy from the secondary winding to the load during the trailing-edge exposure mode; and (iii) operate the power converter in a power mode for a second period of time prior to and non-contiguous with the first period of time, such that the power converter is enabled to transfer energy from the secondary winding to the load during the power mode. | 2014-01-30 |
20140028215 | SWITCH - The invention comprises a switch suitable for forwarding at least two functions to a lighting system. | 2014-01-30 |
20140028216 | OLN LIGHT CHANGE/OPTIMIZATION SYSTEM - Light management system for an outdoor lighting network (OLN) having lighting units, the system including a central control apparatus ( | 2014-01-30 |
20140028217 | Pixel Driver Circuit And Pixel Circuit Having The Pixel Driver Circuit - A pixel driver circuit for driving a light-emitting element and a pixel circuit having the pixel driver circuit are provided. The pixel driver circuit includes a data line, address lines, switch thin film transistors, feedback thin film transistors and drive thin film transistors. The pixel circuit may include an organic light emitting diode, which is driven by the pixel driver circuit. | 2014-01-30 |
20140028218 | STAND-ALONE SYNCHRONIZATION FOR A RUNWAY LIGHT - A method of providing synchronous control for a number of light-emitting diode (LED) units within a LED fixture is described herein. The method can include receiving an input signal. The method can also include sending, in response to receiving the input signal and for a period of time, a power-on delay signal to the LED units, wherein each LED unit includes a counter, a toggle, and a LED driver, where the power-on delay signal resets the counter, initializes the toggle, and disables the LED driver. The method can also include terminating, after the period of time, the power-on delay signal. A LED fixture and a LED unit within a fixture, having one or more components performing the aforementioned method, is also described herein. | 2014-01-30 |
20140028219 | REMOTE INTELLIGENT MONITORING SYSTEM AND LED STREET LAMP APPLIED THERETO - A remote intelligent monitoring system includes a server and a plurality of LED street lamps. Each of the plurality of LED street lamps includes a plurality of LED light sources connected in parallel, a detecting module and a sensing module. The detecting module detects the functioning of each LED light source, and the sensing module detects atmospheric information of the area where the LED street lamp is located. If the detected functioning is not consistent with specified electrical standards corresponding to the detected atmospheric information, either the server or the LED street lamp itself can adjust the electrical functioning of the LED light sources to accord with the specified standards. | 2014-01-30 |
20140028220 | Phase-Lock Loop Synchronization Between Beam Orbit And RF Drive In Synchrocyclotrons - The invention specifies the use of feedback in the radio frequency (RF) drive for a synchrocyclotron, controlling the phase and/or amplitude of the accelerating field as a means to assure optimal acceleration of the beam, to increase the average beam current and to alter the beam orbit in order to allow appropriate extraction as the beam energy is varied. The effect of space charge is reduced by rapid acceleration and extraction of the beam, and the repetition rate of the pulses can be increased. Several means are presented to monitor the phase of the beam in synchrocyclotrons and to adjust the phase and amplitude of the RF to optimize the acceleration of the beam and to adjust the extraction and injection of the beam. Also, the use of a pulsed ion source that matches the acceptance window of the synchrocyclotron is described. | 2014-01-30 |
20140028221 | Method of Adaptively Tuning Motor Speed - Methods and apparatuses related to adaptively tuning vibratory motors are disclosed. One embodiment takes the form of a method of adaptively tuning a vibratory motor including operating the motor at a plurality of voltage levels and recording the frequency of operation of the motor at each of the plurality of voltage levels. The method also includes creating a curve based on the recorded frequency and voltage levels and selecting a drive voltage based upon an intersection of a desired frequency of operation and the created curve. | 2014-01-30 |
20140028222 | SHAPE MEMORY ALLOY DRIVING SYSTEM AND DRIVNG DEVICE - A shape memory alloy (SMA) driving system includes an SMA wire, a power source, a switch element, a temperature sensor, a pulse generator, and a control unit. The power source is electrically connected to one end of the SMA. The switch element includes an input terminal electrically connected to the other end of the SMA, a grounded output terminal, and a control terminal configured for controlling connection and disconnection between the input terminal and the output terminal. The control unit stores a martensite convert temperature and an austenite convert temperature. The control unit compares a temperature detected by the temperature sensor with the martensite convert temperature and the austenite convert temperature. when the detected temperature is lower than the martensite convert temperature and is higher than the austenite convert temperature, the control unit controls the pulse generator to output a higher duty-cycle signal. | 2014-01-30 |
20140028223 | Power Tool Having Display That Displays Residual Capacity Of Battery - A power tool includes a housing, an electric motor accommodated in the housing, a secondary battery that supplies electric power to the electric motor, a handle provided at the housing, a trigger switch provided at the handle for controlling electric power supply to the electric motor, a residual capacity display for displaying a residual capacity of the secondary battery, and a lock-release switch provided at the handle and configured to allow the trigger switch to be operable and to start displaying the residual capacity at the residual capacity display upon manipulation to the lock-release switch. | 2014-01-30 |
20140028224 | MOTOR CONTROL DEVICE - A motor control device includes an inverter driving an electric motor, a vector controller determining an output frequency and a command output voltage to drive the inverter, a speed controller determining a torque command value, a current command calculation unit and an inertia moment estimation unit obtaining a load torque estimate value and estimating inertia moment that is a combination of inertia moment of a motor rotor and inertia moment of a load apparatus, based on a deviation between an acceleration/deceleration torque output value obtained by subtraction of the load torque estimation from motor torque and an acceleration/deceleration torque estimate value obtained by multiplying a variation amount in the speed estimate value per unit time by an inertia moment estimate value. The speed controller is configured to be capable of adjusting a control parameter based on an inertia moment estimate value estimated by the inertia moment estimation unit. | 2014-01-30 |
20140028225 | BOOST CONVERTER CONTROL APPARATUS - A boost converter control apparatus for controlling a motor drive system which is provided with a boost converter disposed between an electric power converter and a direct current power supply, the boost converter boosting a direct current voltage of the direct current power supply and supplying it to the electric power converter, is provided with: an operating device provided with a proportional element, an integral element and a derivative element, the derivative element being configured as a bandpass filter, the operating device calculating a PID controlled variable corresponding to an electric current command value of the boost converter for maintaining an output voltage of the boost converter at a command value of an inter-terminal voltage VH of a smoothing condenser; and a controlling device which is configured to control the output voltage of the boost converter on the basis of the calculated PID controlled variable. | 2014-01-30 |
20140028226 | BRUSHLESS DIRECT-CURRENT MOTOR AND CONTROL FOR POWER TOOL - Brushless direct-current (“BLDC”) motor and control for a power tool. A BLDC motor of a power tool is controlled in either a pulse-width modulation (“PWM”) commutation mode or a centerline commutation mode. When the motor is rotating slowly, the motor is operated using PWM commutation. When the motor is rotating at a speed greater than a threshold speed value, the operation of the motor is transitioned to the centerline commutation mode. When operating in the centerline commutation mode, the high-side field-effect transistors (“FETs”) and low-side FETs can each be used for motor speed control. By switching between speed control using the high-side FETs and speed control using the low-side FETs, the heat generated by freewheeling currents can be approximately evenly distributed among the high-side and low-side FETs. | 2014-01-30 |
20140028227 | INVERTER FOR A DRIVING A MOTOR - An inverter for generating a plurality of alternating signals to be supplied to a motor, the motor having a plurality of phases and a plurality of coils arranged at each of the plurality of phases is provided. The inverter is a motor driving inverter characterized in including a multi-level pulse-density modulator configured to modulate a signal that fluctuates periodically and controls rotation of the motor; and a plurality of switching elements configured to generate each of the plurality of alternating signals by controlling an ON/OFF of a direct current according to selection by an output signal of the pulse-density modulator. | 2014-01-30 |
20140028228 | CONTROL SYSTEMS AND METHODS FOR ANGLE ESTIMATION OF PERMANENT MAGNET MOTORS - An angle estimation control system of a permanent magnet motor is provided. The angle estimation control system includes a Clarke transform module, a Park transform module, and an angle estimation module. The Clarke transform module generates orthogonal current signals in accordance with motor phase currents. The Park transform module generates a current signal in response to the orthogonal current signals and an angle signal. The angle estimation module generates the angle signal in response to the current signal. The angle signal is related to a commutation angle of the permanent magnet motor. The current signal is controlled to be approximately equal to zero. The angle signal is further coupled to generate three phase motor voltage signals. | 2014-01-30 |
20140028229 | MOTOR CONTROLLING CIRCUIT, MOTOR DRIVING DEVICE AND METHOD OF DRIVING MOTOR - There is provided a motor controlling circuit including: a hall signal level detecting unit detecting a hall signal from a hall sensor; and a signal generating unit sensing a change in a level of the hall signal to generate a motor controlling signal according to the change in the level of the hall signal, wherein the signal generating unit determines that the hall signal is maintained at a high level in a case in which a high level maintaining time of the hall signal is equal to or shorter than a preset time. | 2014-01-30 |
20140028230 | MOTOR EXCITING DEVICE AND MOTOR EXCITING METHOD AND MOTOR CONTROL DEVICE AND MOTOR CONTROL METHOD - A motor control device which can determine a magnetic pole position for a magnetic pole position detector included in a permanent magnet motor in which the reluctance torque proportion is larger than the magnet torque proportion is provided. In a permanent magnet synchronous motor having multi-phase windings of N axes (N≧2), the windings of optionally selected K axes (K≦N) are DC excited using corresponding independent power supplies. | 2014-01-30 |
20140028231 | RANGE SWITCHOVER APPARATUS - When electric power supply is started, an initial driving operation is performed to switch over a power supply phase of a motor in open-loop control. Initial learning processing is performed to learn a phase deviation correction value for the power supply phase relative to a count value of a pulse signal of an encoder. As a restraint caused by a shape of a detent mechanism, the motor need be rotationally driven so that a detent lever does not move in a negative direction beyond a bottom position of a P-range in the initial driving operation. In a case of performing the initial learning processing in the P-range in consideration of this restraint, the initial learning processing is performed by setting a rotation direction of the motor. | 2014-01-30 |
20140028232 | Motor Driving Circuit and Method - A motor driving circuit for driving a direct-current (DC) motor, includes a driving circuit for converting an input voltage into a first and a second output voltages, a Hall sensor for generating a first and a second time sequential control signals according to a working condition of the DC motor, a current sensing unit for detecting a motor current through the DC motor and comparing the motor current to a reference current to generate a comparison result and determine a first transition voltage selector value accordingly, and a control unit coupled to the driving circuit, the current sensing unit and the Hall sensor for controlling a working status of the driving circuit according to the first and the second time sequential control signals and the first transition voltage selector value. | 2014-01-30 |
20140028233 | MOTOR DRIVE OVERCURRENT BLOCKING CIRCUIT, MOTOR DRIVING CIRCUIT AND METHOD FOR BLOCKING OVERCURRENT THEREOF - The present invention relates to a motor drive overcurrent blocking circuit, a motor driving circuit, and a method for blocking an overcurrent in a motor driving circuit. The motor drive overcurrent blocking circuit includes: a motor driving unit switched according to a driving control signal to drive a motor; an overcurrent sensing unit connected between a lower end of the sink switching element group and a ground to sense a current flowing in the turned-on switching element of the sink switching element group in the sensing terminal; and an overcurrent blocking unit turned on according to a voltage due to an overcurrent sensed by the overcurrent sensing unit and blocking the overcurrent by sinking the driving control signal applied to the turned-on switching element of the sink switching element group to the ground is provided. | 2014-01-30 |
20140028234 | MOTOR DRIVE OVERCURRENT DETECTING CIRCUIT, MOTOR DRIVING CIRCUIT WITHOUT HEADROOM VOLTAGE LOSS, AND METHOD FOR DETECTING OVERCURRENT IN MOTOR DRIVING CIRCUIT - The present invention relates to a motor drive overcurrent detecting unit, a motor driving circuit without a headroom voltage loss, and a method for detecting an overcurrent in a motor driving circuit. The motor drive overcurrent detecting circuit includes: a motor driving unit switched according to a driving control signal to drive a motor; a sensing unit for distributing a sensing current from the current flowing through the motor according to turn-on of a distribution switching element and sensing the distribution current through a sensing resistor; and an on-resistance maintaining unit for maintaining on-resistance of the turned-on distribution switching element by turning on the distribution switching element. Further, a motor driving circuit without a headroom voltage loss and a method for detecting an overcurrent in a motor driving circuit are provided. | 2014-01-30 |
20140028235 | METHOD AND DEVICE FOR PROCESSING A MOTOR SIGNAL - A method and a device process a motor signal of a direct current motor, in particular of an adjustment drive of a motor vehicle. The armature current and the motor voltage of the direct current motor are detected and used for determining the counter induction voltage of the direct current motor, by which a number of control signals having different ripple frequencies for controllable frequency filters are generated. The current ripples that are generated in a frequency dependent manner by the frequency filters, to which a filter input signal derived from the armature current and the motor voltage is applied, are synchronized with each other in the course of the ripple count. | 2014-01-30 |
20140028236 | DRIVING APPARATUS FOR FAN MOTER - A digital filter is configured to convert, into a digital value, the duty ratio of a control signal subjected to pulse width modulation according to a target toque to be set for a fan motor to be driven. A sampling circuit is configured to perform sampling of the output value of the digital filter at a sampling timing that is asynchronous with respect to the cycle of the control signal, so as to generate a torque instruction value. A driving circuit is configured to drive the fan motor according to the torque instruction value thus generated. | 2014-01-30 |
20140028237 | INVERTER CONTROL APPARATUS AND CONTROL METHOD THEREOF - An inverter control apparatus and a control method thereof are provided. The inverter control apparatus and a control method thereof stably operate a three-phase motor using a capacitor having a small capacitance for a DC link. The inverter control apparatus includes a current sensor to sense an output current of the inverter, a voltage sensor to sense a DC-link voltage of the inverter, and a controller to generate an average of a periodically varying rotor based q-axis current boundary value based on the output current and the DC-link voltage to generate a current reference on the basis of the average of the rotor based q-axis current boundary value, and to drive a three-phase motor based on the current reference. Stabilized variable speed control of a motor by using a small-capacitance capacitor for a DC link of an inverter is performed and reliability of an inverter circuit improved. | 2014-01-30 |
20140028238 | Inverter Device - The present invention includes: an electrolytic capacitor that smoothes a rectified voltage to a direct voltage; an inverter circuit that generates an alternating voltage from the direct voltage, to drive an electric motor; a controlling device that controls drive of switching elements included in the inverter circuit; and a temperature measuring device that measures a temperature of the electrolytic capacitor, to output the measured temperature to the controlling device, in which, when the temperature obtained by the temperature measuring device is lower than a predetermined target temperature, the controlling device supplies the electric motor with a current which is restricted so that a ripple voltage of the direct voltage falls within an allowable range, before starting a normal operation of the electric motor, so that the temperature of the electrolytic capacitor is raised to the target temperature. Thus, the electrolytic capacitor can be used even in a lower-temperature environment. | 2014-01-30 |
20140028239 | Control System And Method - Embodiments of the present invention relate to an a method, apparatus and computer program product for controlling the operation of a drive unit comprising a plurality of switching modules arranged to receive a DC electricity supply and generate an AC electricity supply for driving a load from the received DC electricity supply, the AC electricity supply being generated by the switching of the plurality of switching modules between a conducting state and a non-conducting state. The method comprises receiving one or more characteristics associated with each of the switching modules, comparing, for each switching module of the plurality of switching modules, a characteristic of the switching module with an equivalent characteristic associated with one or more other switching modules of the plurality of switching modules, and controlling a time period during which one or more of the plurality of switching modules are in the conducting state in accordance with a result of the comparison. | 2014-01-30 |
20140028240 | STOWABLE TRACKING PHOTOVOLTAIC ARRAY - Technologies related to a photovoltaic array apparatus are generally described. In some examples, the apparatus may comprise a central hub, adjustable length struts, and a plurality of photovoltaic segments coupled to the central hub and struts. The photovoltaic segments may be selectively positioned between a stowed arrangement and a deployed arrangement by operation of the central hub and/or struts. In the stowed arrangement, the photovoltaic segments may be stacked, and in the deployed arrangement, the photovoltaic segments may be may be azimuthally displaced about the central hub. A control system coupled to the struts may be configured to control the struts to dynamically orient the photovoltaic segments so as to maximize, or otherwise adjust, power collected from incident radiation. | 2014-01-30 |
20140028241 | SELF-CONTAINED OFF-GRID SOLAR PANEL/GENERATOR - A portable self-contained off-grid solar panel/generator is disclosed. The self-contained off-grid solar panel/generator is configured for power generation for tools, cooking equipment, electric machines, electronic devices, and the like. The self-contained off-grid solar panel/generator is useful in locations where traditional power sources are not available or reliable, such as campsites, worksites, picnic sites, county or state fairgrounds, craft shows, festivals, the desert, parks, athletic events, parking lots, and the like. In at least one embodiment, the self-contained off-grid solar panel/generator includes solar panels, at least one storage battery, an inverter, and a charge controller, all self-contained within the solar generator system. | 2014-01-30 |
20140028242 | Sunshades with Solar Power Supplies for Charging Electronic Devices - A device for providing electrical power from light for charging a portable electronic device includes a frame structure, a shade attached to the frame structure, and a solar panel attached to the frame structure and positioned above the shade. The device includes a rechargeable battery configured to be recharged by the solar panel, and a charging terminal configured to connect to the portable electronic device and supply charge from the rechargeable battery to the portable electronic device. | 2014-01-30 |
20140028243 | ACCESSORIES FOR USE WITH HOUSING FOR AN ELECTRONIC DEVICE - This disclosure relates generally to a device for retaining an electronic device as well as for methods for using the device for the purpose of doing the same. In various instances, the electronic device includes a housing and the retaining device is adapted for interfacing with the housing of the electronic device. The housing may be a separate unit from the electronic device or part of the electronic device itself. In various instances, the housing is a separate unit from the electronic device, within which the electronic device is fitted. In certain instances, the housing for the electronic device is adapted for protecting the device from one or more of shock, liquid, dust, snow, and the like. The electronic device may be any suitable electronic device, such as a computer, mobile computer, notebook computer, tablet computer, telephone, personal digital assistant, or the like. | 2014-01-30 |
20140028244 | SEMICONDUCTOR DEVICE, POWER TRANSMISSION DEVICE, POWER RECEPTION DEVICE, CHARGING SYSTEM, WIRELESS COMMUNICATION SYSTEM, AND CHARGING METHOD - A semiconductor device transmits a wireless signal to a power reception device that charges a battery, transmits a charge completion signal when the battery charge is completed, and transmits a response signal in reply to a query signal in the wireless signal. The semiconductor device includes a drive control circuit, a reception circuit, and a controller. The controller can control, when the reception circuit does not receive the response signal or receives the charge completion signal, the drive control circuit to transmit communication capable power that makes it possible to communicate with the power reception device and control, when the reception circuit receives the response signal and does not receive the charge completion signal, the drive control circuit to transmit charging power capable of charging the battery of the power reception device by the wireless signal, the charging power being higher than the communication capable power. | 2014-01-30 |
20140028245 | BATTERY PACK INCLUDING SENSING BOARD AND POWER STORAGE SYSTEM EMPLOYING THE SAME - A battery pack includes a battery unit including rechargeable batteries, a sensing board, the sensing board configured to process status information detected from the batteries, and a harness wire, the harness wire connecting the batteries and the sensing board so that the status information can be transmitted to the sensing board. | 2014-01-30 |
20140028246 | PRINTER WITH BATTERY CHARGED VIA USB PORT - Apparatus comprises measuring circuitry configured to determine a current provided by a USB port, a controller configured to select a charging current in dependence on the determined current, and a battery charger configured to charge a battery with said selected current. | 2014-01-30 |
20140028247 | ANGLE ADJUSTABLE CONNECTING MODULE - An angle adjustable connecting module comprises a casing and a connecting assembly. The casing has an opening. The connecting assembly includes a connecting portion, a shaft and at least an elastic member. The connecting portion is connected with the shaft, an end of the elastic member is connected with the shaft and the other end of the elastic member is connected with the casing, and the shaft is rotatably disposed at the casing for allowing a part of the connecting portion to be movably exposed to the opening. Thus, the wear problem generated as connecting with the game controller can be reduced for ensuring that the functions are normally operated to extend the lifetime of the game controller. | 2014-01-30 |
20140028248 | TRIMMING CIRCUIT, POWER SUPPLY INCLUDING TRIMMING CIRCUIT, AND TRIMMING METHOD - A trimming circuit, installed in a semiconductor integrated circuit that has multiple different target values, the trimming circuit to adjusts circuit characteristics of the semiconductor integrated circuit to make output values of the semiconductor integrated circuit correspond to multiple desired target values and includes a setting-value table memory to store multiple setting value groups respectively containing different combinations of multiple setting values related to the multiple target values; a trimming cell circuit to store first selection information indicating one group of the multiple setting-value groups stored in the setting-value table memory; and a selector to select one group from the multiple setting-value group stored in the setting-value table memory based on the first selection information, and select one setting value from multiple setting values in the selected setting-value group based on external second selection information to output the selected setting value. | 2014-01-30 |
20140028249 | PULSE CHARGING OF A GRID INTERACTIVE BATTERY SYSTEM - A system for pulse charging a battery includes a battery module, an inverter, and a pulse apparatus connected to the inverter and the battery module and configured to pulse charge the battery module by modulating a power output from the inverter. A method of pulse charging a battery module includes the steps of converting AC power output from a power grid to constant DC power, modulating the constant DC power to produce modulated power, and providing the modulated power to the battery module to pulse charge the battery module. | 2014-01-30 |
20140028250 | CHARGING APPARATUS FOR LEAD STORAGE BATTERY - A charging apparatus | 2014-01-30 |
20140028251 | UNIVERSAL APPARATUS FOR WIRELESS DEVICE CHARGING USING RADIO FREQUENCY (RF) ENERGY - An apparatus for wireless charging using radio frequency (RF) energy includes a charger coil configured to produce RF charging energy as a magnetic field, the charger coil located proximate to a magnetic material and a metal material, the magnetic material and the metal material located to attenuate the magnetic field generated by the charger coil beyond a plane defined by a major surface of the magnetic material and the metal material, a first portion of the magnetic material underlying the charger coil and a second portion of magnetic material overlying the charger coil. | 2014-01-30 |
20140028252 | POWER TRANSFER - Apparatus comprises: an induction, coil ( | 2014-01-30 |
20140028253 | BATTERY CHARGER CRADLE - In a battery charger cradle, a battery incorporated in a battery built-in device is charged by electric power induced to an induction coil. The cradle includes a primary coil for inducing electromotive force to the induction coil, a casing having a top plate atop of which the battery built-in device is placed, a movement mechanism for moving the primary coil along an inner surface of the top plate, and a position detection controller for detecting a position of the battery built-in device placed on the top plate and controlling the movement mechanism to bring the primary coil closer to the induction coil in the battery built-in device. When the battery built-in device is placed on the top plate, the position detection controller detects the position of the battery built-in device, and the movement mechanism moves the primary coil closer to the induction coil in the battery built-in device. | 2014-01-30 |
20140028254 | METHOD AND SYSTEM FOR CHARGING OF ELECTRIC VEHICLES - A method for charging plurality of electric vehicles is provided. The method includes determining predicted usage information for the plurality of electric vehicles based on past information for the plurality of vehicles. The predicted usage information, among other information, includes a first total energy needed to be provided to the plurality of vehicles to reach a respective desired state of charge set point. The method further includes optimizing power to be provided to the plurality of vehicles to generate an optimal power requirement plan based on a first cost incurred to charge the vehicles with the first total energy. Furthermore, the method includes scheduling charging of the plurality of vehicles through at least one charging station according to the optimal power requirement plan and a priority associated with each of the plurality of vehicles. | 2014-01-30 |
20140028255 | NETWORKED UNIVERSAL ELECTRIC VEHICLE CHARGING SYSTEM - An electric vehicle charging station system has numerous charging nodes, each charging node including a charging station having at least two electric vehicle supply equipment selected from the group consisting of a Level 1 charging device, a Level 2 charging device, a TESLA charging device, and a Level 3/Fast DC charging device, wherein the plurality of charging nodes are in communication with each other through a network. A display device is disposed on each charging station, the display device having one or more portals that display a web-based or consumer-focused content, wherein a portion of the content is provided by a vendor that provides a good or service concentrically located within a predetermined distance to the system, and another portion of the content provides the location of adjacent charging nodes to a consumer using the system to charge an electric vehicle. A selection device allows the consumer to select a particular portal, wherein the selection device transmits the selected content to a mobile device associated with the consumer. | 2014-01-30 |
20140028256 | POWER SUPPLY APPARATUS FOR ELECTRICALLY POWERED VEHICLE AND METHOD FOR CONTROLLING THE SAME - If an external power supply is not connected to an electrically powered vehicle by a charging cable and there is a request to output electric power from an AC receptacle, a power generation mode is selected and a charger receives electric power from a main battery, converts it into alternating current electric power, and outputs it to a power line. In the power generation mode when an auxiliary machinery system is fed with electric power one of a first mode (a normal mode) and a second mode (a high-output mode) is selected depending on electric power used at the AC receptacle. In the normal mode, a main DC/DC converter is stopped, while an AC/DC converter is operated to generate auxiliary electric power. In the high-output mode, the main DC/DC converter is operated to generate auxiliary electric power, while the AC/DC converter is stopped. | 2014-01-30 |
20140028257 | CENTER SERVER, CHARGING FACILITY REGISTRATION SYSTEM INCLUDING SAME, AND CHARGING FACILITY REGISTRATION METHOD - A center server ( | 2014-01-30 |
20140028258 | SNAP-FIT SEPARABLE MOBILE BACKUP POWER SUPPLY - The power supply also includes battery charging module and engaging means, the module includes a bottom cover, isolation plate and a circuit board, the isolation plate with fixed bottom cover, the circuit board connected to the battery, the bottom have a cavity to receive battery and circuit board, the isolation plate installed in the circuit board and the top of the battery, the circuit board has to match the terminal, above the terminal is equipped with the terminal cover, the terminal cover and isolation plate fixing. | 2014-01-30 |
20140028259 | BALANCING OF BATTERY PACK SYSTEM MODULES - A system for balancing a plurality of battery pack system modules connected in series may include in each battery pack system module a controller configured to detect that the first system module has reached a first state of charge; activate the first charge switch to physically disconnect and to prevent further charging of the first system module after detecting the first state of charge; discharge the plurality of cells after activating the first charge switch to balance the first system module with a second system module coupled to the first system module; de-activate the first charge switch after discharging the plurality of battery cells; and charge the plurality of cells after de-activating the first charge switch. | 2014-01-30 |
20140028260 | AQUEOUS REDOX FLOW BATTERIES COMPRISING METAL LIGAND COORDINATION COMPOUNDS - This invention is directed to aqueous redox flow batteries comprising redox-active metal ligand coordination compounds. The compounds and configurations described herein enable flow batteries with performance and cost parameters that represent a significant improvement over that previous known in the art. | 2014-01-30 |
20140028261 | Electrochemical Energy Storage Systems and Methods Featuring Large Negative Half-Cell Potentials - The invention concerns flow batteries comprising: a first half-cell comprising: (i) a first aqueous electrolyte comprising a first redox active material; and a first carbon electrode in contact with the first aqueous electrolyte; (ii) a second half-cell comprising: a second aqueous electrolyte comprising a second redox active material; and a second carbon electrode in contact with the second aqueous electrolyte; and (iii) a separator disposed between the first half-cell and the second half-cell; the first half-cell having a half-cell potential equal to or more negative than about −0.3 V with respect to a reversible hydrogen electrode; and the first aqueous electrolyte having a pH in a range of from about 8 to about 13, wherein the flow battery is capable of operating or is operating at a current density at least about 25 mA/cm | 2014-01-30 |
20140028262 | SECONDARY BATTERY PACK - Provided is a secondary battery pack that determines, as for protection and controlling, the state of connection based on information input from external interfaces and switches a protection and control mode from one setting to another according to connection targets and situations. The secondary battery block of the present invention includes a secondary battery block having secondary batteries connected; a current detection section that monitors a charge and discharge current of the secondary battery block; an output voltage detection section that monitors the output voltage; a communication terminal; an ID terminal that detects a connection to a device; and a control section. The control section controls the charging and discharging of the battery pack, calculates capacitance and performs other processes to control the operation of the battery pack as a whole on the basis of electric potential/communication information from the communication terminal and device connection information from the ID terminal. | 2014-01-30 |
20140028263 | CELL BALANCE CIRCUIT AND CELL BALANCE DEVICE - To provide a cell balance circuit and a cell balance apparatus with a low cost and with a compact size, and configured to equalize the charge voltages of rechargeable batteries when the rechargeable batteries are charged or discharged, while suppressing deterioration of the rechargeable batteries. A cell balance circuit AA includes a transformer T, a switch SW | 2014-01-30 |
20140028264 | METHOD FOR RECOVERING CAPACITY OF LITHIUM ION BATTERY - A method for recovering the capacity of a lithium ion battery determines whether or not the cause of degradation is a decrease in lithium ions; calculates the amount of the decrease in lithium ions; and connects a lithium ion replenishing electrode to a positive electrode or a negative electrode to release lithium ions corresponding to the amount of the decrease from the lithium ion replenishing electrode, thereby replenishing the lithium ion battery with lithium ions for recovery of the battery capacity. | 2014-01-30 |
20140028265 | BATTERY CONTROL UNIT, CHARGE-DISCHARGE UNIT, ELECTRIC POWER CONTROL UNIT, BATTERY UNIT, ELECTRIC VEHICLE - A battery control unit includes: a storage section holding remaining amount data that indicates a remaining amount of a battery; and a control section managing the battery in a fashion of separating the battery into a first region and a second region, by a way of separating the remaining amount data into first remaining amount data and second remaining data and of allowing the storage section to hold the first and second remaining amount data. | 2014-01-30 |
20140028266 | MODULAR MULTILEVEL CONVERTER WITH CELL-CONNECTED BATTERY STORAGES - The invention concerns a method, voltage source converter and computer program product for supporting an associate AC system and comprising: a number of cells (CA1, CA2, CA3, CA4, CA5, CA6, CB1, CB2, CB3, CB4, CBS, CB6, CC1, CC2, CC3, CC4, CCS, CC6), each cell comprising a string of switching elements in parallel with a cell capacitor, at least some cells further including a battery module group comprising at least one battery module connectable in parallel with the cell capacitor and a control unit ( | 2014-01-30 |
20140028267 | BATTERY CHARGING METHOD AND BATTERY PACK UTILIZING THE SAME - A method of charging a battery and a battery pack utilizing the same, is disclosed. The method enhances the battery life characteristic of a battery cell by varying the charging parameters (e.g., charging voltage, charging current, rate of charge, relative state of charge, and battery capacity) based a temperature of or around the battery cell is in a normal, extended, or abnormal temperature range when the battery cell is fully charged. The charging method includes determining whether a battery cell is being charged, and if the battery cell is being charged, determining whether the battery cell is fully charged; if the battery cell is fully charged, determining whether a temperature of or around the battery cell is in a normal range or in an extended range; and if the temperature is in the normal range, selecting a first charging parameter set, and if the temperature is in the extended range, selecting a charging condition of the battery cell as a second set value. | 2014-01-30 |
20140028268 | SYSTEM AND METHOD FOR A RECHARGEABLE BATTERY - A method for a rechargeable battery is disclosed that includes applying a charge voltage to the rechargeable battery; monitoring a battery voltage and a battery current of the rechargeable battery; and identifying a top of charge condition when for a defined time period the battery voltage is within a voltage tolerance of the charge voltage and the battery current is within a current tolerance of a threshold current. Also disclosed is a rechargeable battery system. | 2014-01-30 |
20140028269 | Methods for Manufacturing and Operating a Semiconductor Device - A method for manufacturing and operating a semiconductor device is disclosed. The semiconductor device includes a first capacitor node, a second capacitor node, a first capacitor electrode, a second capacitor electrode, a first switch and a second switch. The first switch is coupled between the first capacitor electrode and the first and second capacitor nodes such that the first switch has a first position that couples the first capacitor electrode to the first capacitor node and a second position that couples the first capacitor electrode to the second capacitor node. The second switch is coupled between the second capacitor electrode and the first and second capacitor nodes such that the second switch has a first position that couples the second capacitor electrode to the first capacitor node and a second position that couples the second capacitor electrode to the second capacitor node. | 2014-01-30 |
20140028270 | SYNCHRONOUS RECTIFICATION TYPE POWER CIRCUIT AND METHOD OF ADJUSTING THE SAME - According to one embodiment, a synchronous rectification type power circuit includes a first power terminal to which a voltage on a high potential side is supplied, a second power terminal to which a voltage on a low potential side is supplied, an output terminal that outputs an output voltage to a load having an inductance and a capacitor, a first switch unit connected between the first power terminal and the output terminal, a second switch unit connected between the second power terminal and the output terminal, a control signal generating circuit which controls ON/OFF of the first and second switch units, and a control circuit that compares the output voltage with a predetermined reference voltage for a predetermined period when the second switch unit is turned OFF. A timing for turning OFF the second switch unit is adjusted based on a result of the comparison. | 2014-01-30 |
20140028271 | DC-DC CONVERTER AND SEMICONDUCTOR INTEGRATED CIRCUIT - A DC-DC converter includes: a high-side switch; a low-side switch coupled to the high-side switch in series; a capacitor configured to be charged while the low-side switch is turned on and to increase a driving voltage for turning on the high-side switch by a charged voltage; a buffer configured to output a control signal for controlling the high-side switch; a latch configured to receive the control signal at a first input terminal, retain the control signal, and output the control signal to the high-side switch; and a switch configured to receive the control signal from the latch and deactivate the buffer. | 2014-01-30 |
20140028272 | MEASURING CURRENT IN A POWER REGULATOR SYSTEM - One embodiment includes a power regulator system. The system includes a gate driver circuit configured to generate switching signal and a switching circuit package configured to receive the switching signal at a gate terminal. A signal return associated with the switching signal is provided at a gate return terminal. The switching circuit package also includes a switch that is periodically activated in response to the switching signal to generate a switching voltage at a switching node terminal. A filter stage includes an inductor interconnecting the switching node terminal and a node. The inductor can be configured to conduct a current in response to the switching voltage to generate an output voltage. A current sense circuit interconnects the gate return terminal and the node and measures a magnitude of the output current. | 2014-01-30 |
20140028273 | ARRANGEMENT FOR GENERATING AN OUTPUT VOLTAGE - When generating a voltage V | 2014-01-30 |
20140028274 | REGULATOR - Provided is a regulator configured to output a stable voltage even when a power supply voltage fluctuates suddenly. The regulator includes: a reference voltage circuit; a differential amplifier; a depletion type NMOS transistor; and a bleeder circuit, in which a power supply terminal of the differential amplifier is connected to an output terminal of the regulator. Further, a power supply terminal of the reference voltage circuit is connected to the output terminal of the regulator. | 2014-01-30 |
20140028275 | VOLTAGE CONVERTING APPARATUS - A voltage converting apparatus is disclosed. The voltage converting apparatus includes a pulse width modulation (PWM) signal generating circuit, a power transistor, a first inductor, a second inductor and a feedback rectifier. The PWM signal generating circuit receives a feedback power to be an operating power and generates a PWM signal. A first terminal of the power transistor receives an input voltage, and a control terminal of the power transistor receives the PWM signal. The second inductor couples with a voltage on the first inductor and generates a coupling voltage. The feedback rectifier rectifies the coupling voltage to generate a feedback power. | 2014-01-30 |
20140028276 | INTERNAL VOLTAGE GENERATOR HAVING IMMUNITY TO GROUND BOUNCING - An internal voltage generator includes a comparison unit configured to compare a voltage level of a feedback voltage with a reference voltage to generate an enable signal based on a result of the comparison; an internal voltage generation unit configured to generate an internal voltage in response to the enable signal; a voltage detection unit configured to generate a control signal by detecting a voltage level of a power source voltage; and a feedback unit configured to generate the feedback voltage by dividing the internal voltage at a given resistance ratio, wherein the feedback unit continuously maintains a difference between the voltage levels of the power source voltage and the internal voltage in response to the control signal. | 2014-01-30 |
20140028277 | ELECTRIC DEVICE - Provided is an electric device, including: a secondary battery; and a power supply circuit for dropping an input voltage which is input from the secondary battery to an output voltage and outputting the output voltage to a load, in which the output voltage is stepwise dropped in accordance with the drop of the input voltage. | 2014-01-30 |
20140028278 | DUAL REGULATOR SYSTEMS - A microcontroller system includes a main voltage regulator and a low power voltage regulator having a static current consumption less than the static current consumption of the main voltage regulator. A power state controller enables the low power voltage regulator during a power saving mode. On exiting the power saving mode, the power state controller enables the main voltage regulator and disables the low power voltage regulator after determining that the main voltage regulator is ready. The switching circuitry can be asynchronous. | 2014-01-30 |
20140028279 | POWER SUPPLY CIRCUITS - A power supply circuit includes a first power amplifier that amplifies an input signal; a high pass filter that removes frequency components that are lower than a predetermined first cutoff frequency from an output signal of the first power amplifier; a current detector that detects a current value of the output signal of the first power amplifier; a composite signal generation circuit that combines the input signal and an output signal of the current detector; a second power amplifier that amplifies an output signal of the composite signal generation circuit; a low pass filter that removes frequency components that are higher than a predetermined second cutoff frequency from an output signal of the second power amplifier; and a signal output terminal that combines a current of an output signal of the high pass filter and a current of an output signal of the low pass filter and then outputs the resultant signal. | 2014-01-30 |
20140028280 | SEMICONDUCTOR DEVICE - A device, comprising: first and second signal lines; first and second transistors of first conductivity type coupled in series between first and second signal lines and coupled to each other at first node; third and fourth transistors of second conductivity type coupled in series between first and second lines and coupled to each other at second node; power supply node coupled in common to first and second nodes; fifth transistor of first conductivity type coupled between first and second signal lines; and sixth transistor of second conductivity type coupled between first and second signal lines, wherein each of first, second and fifth transistors is configured to receive first control signal at gate electrode thereof, each of the third and fourth transistors is configured to receive second control signal at gate electrode thereof, and sixth transistor is configured to receive third control signal at gate electrode thereof. | 2014-01-30 |