32nd week of 2014 patent applcation highlights part 23 |
Patent application number | Title | Published |
20140217877 | SPRING LOADED MULLION FOR FRENCH DOOR REFRIGERTOR - A refrigerator having French-style doors is sealed between the doors by a first sealing pad linearly biased from a base fixed within a recess provided in an inner side portion of one door, and a second sealing pad carried by a mounting arm which is pivotally mounted and angularly biased from an inner side portion of the second door. When either door is closed against the other, the first and second sealing pads deflect and conform to each other to provide an effective seal. In one preferred embodiment of the invention, the first and second sealing pads take complementary concave and convex shapes which provide a larger cross-section for the overall sealing area and establish a high insulation value, while avoiding the need for an internal heater commonly employed in refrigerator doors. | 2014-08-07 |
20140217878 | LINER WITH ELECTRICAL PATHWAYS - A liner for an appliance is formed by a plastic sheet formed into a three dimensional shape corresponding to at least a portion of a compartment of the appliance. A plurality of electrically conductive ink pathways are applied on a surface of the plastic sheet, and a sealer material is applied to the plastic sheet to cover said pathways. | 2014-08-07 |
20140217879 | CONFIGURABLE POWER SUPPLY CIRCUIT FOR LIGHTED SHELVES IN A REFRIGERATOR - Illustrative embodiments of systems and methods for powering lighted shelves in refrigerator appliances are disclosed. In one embodiment, a refrigerator appliance may comprise a cabinet having a temperature-controlled compartment defined therein and a plurality of electrical connectors disposed at a plurality of shelf mounting positions within the temperature-controlled compartment. The refrigerator appliance may also comprise a plurality of adjustable shelves each carrying at least one light emitting diode (LED), where each of the plurality of adjustable shelves may be removably mounted in one of the plurality of shelf mounting positions such that the at least one LED is electrically coupled to one of the plurality of electrical connectors. The refrigerator appliance may further comprise a power supply circuit that is electrically coupled to the plurality of electrical connectors and that is configured to selectively supply power to only a subset of the plurality of electrical connectors. | 2014-08-07 |
20140217880 | Lamp Device, Light-Emitting Device and Luminaire - According to one embodiment, a lamp device includes a base body, a light-emitting module and a lens unit. The base body includes a recess part. The light-emitting module includes a board mounted with a light-emitting element. The board is arranged in the recess part. The lens unit includes a metal surface member to hold a lens. The surface member is arranged in the recess part and is thermally coupled to the base body and the board. | 2014-08-07 |
20140217881 | Plasma generator, manufacturing method of rotating electrode for plasma generator, method for performing plasma treatment of substrate, and method for forming thin film having mixed structure by using plasma - A plasma generator according to an embodiment of the present invention is provided to generate a high density and stable plasma at near atmospheric pressure by preventing a transition of plasma to arc. The plasma generator includes a plate-shaped lower electrode for seating a substrate; and a cylindrical rotating electrode on the plate-shaped lower electrode, wherein the cylindrical rotating electrode includes an electrically conductive body that is connected to a power supply and includes a plurality of capillary units on an outer circumferential surface of the electrically conductive body; and an insulation shield layer that is made of an insulation material or a dielectric material, exposes a lower surface of the plurality of capillary units, and shields other parts. | 2014-08-07 |
20140217882 | PLASMA GENERATOR AND PLASMA GENERATING DEVICE - A plasma generator has a dielectric with a through hole and has a first electrode and a second electrode provided in the dielectric. The first electrode surrounds the through hole when viewed in the penetrating direction of the through hole. The second electrode includes a downstream region which is positioned further toward one side of the through hole in the penetrating direction of the through hole than the first electrode. When viewed in the penetrating direction of the through hole, the downstream region surrounds the through hole and is further away toward the outer circumferential side from the inner circumferential surface of the through hole than the first electrode. | 2014-08-07 |
20140217883 | MERCURY DOSING COMPOSITION - An improved mercury dosing composition is described. A method for dispensing mercury with this composition and to discharge lamps containing each composition is also described. | 2014-08-07 |
20140217884 | FLASH TUBE WITH AN EXTERNAL TRIGGERING WIRE - The present invention relates to the field of flash tubes for photographic use, in particular to a flash tube comprising a trigger element for triggering a flash in the flash tube. Accordingly, a flash tube is provided. The flash tube comprises a glass envelope enclosing a gas for use in a flash tube; a first electrode inside the glass envelope; a second electrode inside the glass envelope; and an electrically conductive trigger element being configured to receive a high voltage pulse for at least partly ionizing the gas inside the glass envelope in order to trigg a flash in said flash tube, wherein said electrically conductive trigger element extends along the glass envelope from a first point on the glass envelope adjacent to the first electrode to a second point on the glass envelope adjacent to the second electrode such that a single unified spark stream which bridges the first and second electrodes inside the glass envelope is formed in the at least partly ionized gas adjacent to said electrically conductive trigger element when said electrically conductive trigger element receives the high voltage pulse. | 2014-08-07 |
20140217885 | Pulsed Depressed Collector - A high power RF device has an electron beam cavity, a modulator, and a circuit for feed-forward energy recovery from a multi-stage depressed collector to the modulator. The electron beam cavity include a cathode, an anode, and the multi-stage depressed collector, and the modulator is configured to provide pulses to the cathode. Voltages of the electrode stages of the multi-stage depressed collector are allowed to float as determined by fixed impedances seen by the electrode stages. The energy recovery circuit includes a storage capacitor that dynamically biases potentials of the electrode stages of the multi-stage depressed collector and provides recovered energy from the electrode stages of the multi-stage depressed collector to the modulator. The circuit may also include a step-down transformer, where the electrode stages of the multi-stage depressed collector are electrically connected to separate taps on the step-down transformer. | 2014-08-07 |
20140217886 | Programmable Solid State Light Bulb Assemblies - A driver circuit for programmable solid state light bulb assemblies including light emitting diodes is operable to provide a drive current to a light source of the light bulb assembly. The controller comprises a data storage unit storing a test scenario for calibration of the light bulb assembly; wherein the test scenario indicates a sequence of states of the light source; wherein a state of the light source is associated with settings of the driver circuit; a data input unit receiving a command signal via a modulated electricity supply signal; and a data processing unit retrieving the test scenario from the data storage unit; in dependence of the received command signal, generating a control signal for operating the light source in at least one state of the sequence of states of the test scenario; and to output the control signal. | 2014-08-07 |
20140217887 | Controllers for Solid State Light Bulb Assemblies - Controllers for driver circuits of solid state light bulb assemblies including light emitting diodes comprise a power converter, a data storage unit operable to store data items relating to an operating behavior of the light bulb assembly, a temperature sensor operable to determine a chip temperature of the controller, and a data processing unit operable to receive the chip temperature, to retrieve the stored data items from the data storage unit, to generate a control signal in dependence upon the chip temperature and the retrieved data items, and to output the control signal to the power converter for operation of the light source. | 2014-08-07 |
20140217888 | METHOD FOR CALIBRATING AT LEAST ONE HEADLAMP - The invention relates to a method for calibrating at least one headlamp ( | 2014-08-07 |
20140217889 | LED LIGHTING - An LED light includes a light body; an LED light board disposed in the light body and disposed thereon a plurality of LED dies; at least one battery coupling member, which is a detachable battery carrier, disposed at an outside edge of the light body for accommodating therein a battery device which is a replaceable element; and a power switch control circuit disposed in the light body and electrically coupled to an alternate current source, the at least one battery coupling member and the LED light board so that either of an alternate current received from the alternate current source and a direct current received from the battery device is transmitted to the LED light board. The replaceable battery device disposed at the outside edge of the light body and used as a backup power supply for emergency illumination is simple in structure and low in cost. | 2014-08-07 |
20140217890 | HANDHELD DEVICE AND POWER SUPPLY CIRCUIT THEREOF - A handheld device includes a backlight driving unit and a power supply circuit for powering the backlight driving unit. The power supply circuit includes a power management unit, a battery, a first electronic switch, a second electronic switch, and a control unit. When a voltage of a second terminal of the second electronic switch is less than a reference voltage of the control unit, the control unit turns on the first electronic switch and turns off the second electronic switch. The backlight driving unit is powered by the battery through the first electronic switch. When the voltage of the second terminal of the second electronic switch is more than the reference voltage of the control unit, the control unit turns off the first electronic switch and turns on the second electronic switch. The backlight driving unit is powered by the PMU through the second electronic switch. | 2014-08-07 |
20140217891 | ELECTRODE FOR PLASMA PROCESSING APPARATUS, METHOD FOR MANUFACTURING THE SAME, AND PLASMA PROCESSING APPARATUS - According to embodiments, an inner electrode having a plurality of gas holes includes a first contact surface provided to a part of an outer peripheral surface. An outer electrode includes a second contact surface provided to a part of an inner peripheral surface, corresponding to the first contact surface of the inner electrode. The inner electrode and the outer electrode come into contact with each other on the first and second contact surfaces. A brazing filler metal is filled in a brazing filler metal filling hole that reaches from front side main surfaces of the inner electrode and the outer electrode to the contact surfaces to join the inner electrode and the outer electrode. | 2014-08-07 |
20140217892 | PLASMA SOURCE - The present invention relates to a plasma source which is arranged in floating fashion on a vacuum chamber, wherein the plasma source comprises a source housing, and a filament is provided in the source housing and is arranged so as to be insulated therefrom, wherein means for measuring the potential drop between the source housing and the filament are provided. The measured potential drop can be used for regulating the voltage heating the filament. According to the invention, corresponding means are provided. | 2014-08-07 |
20140217893 | PLASMA SOURCE - A plasma source comprising an RF coupling system, magnets or coils that generate magnetic fields, a gas injection system, and a vacuum tight RF transparent gas containment tube, wherein said RF coupling system comprises an RF coupler and said plasma source further comprises a choke point wherein the ratio of the field strength at said choke point to the field strength at said RF coupler is greater than two. | 2014-08-07 |
20140217894 | LINEAR PLASMA SOURCE - Embodiments of the present application disclose a linear plasma source applied to the field of solar cell production. A linear plasma source comprising a housing which forms a reaction chamber having an outlet; a gas intake system comprising an internal pipeline which is mounted on the housing and located inside the reaction chamber for releasing reaction gas into the reaction chamber; an electrode system comprising at least two electrode plates which are mounted on the housing and located around the internal pipeline within the reaction chamber; and an electromagnetism system comprising an electromagnetic coil, and the electromagnetic coil is mounted at the outlet of the reaction chamber of the housing and has a plasma outlet. The embodiments of the present application have a simple structure, a low production cost, a good uniformity and a high film compactness. | 2014-08-07 |
20140217895 | TEMPERATURE CONTROLLED WINDOW OF A PLASMA PROCESSING CHAMBER COMPONENT - A temperature controlled dielectric window of an inductively coupled plasma processing chamber includes a dielectric window forming a top wall of the plasma processing chamber having at least first and second channels therein. A liquid circulating system includes a source of cold liquid circulating in a first closed loop which is not in fluid communication with the channels, a source of hot liquid circulating in a second closed loop which is in fluid communication with the channels, and first and second heat exchangers. The cold liquid passes through the first heat exchanger at a controllable flow rate and temperature of the hot liquid is adjusted by heat exchange with the cold liquid as the hot liquid passes through the first heat exchanger and then through the inlet of the first channel. The cold liquid passes through the second heat exchanger at a controllable flow rate and temperature of the hot liquid is adjusted by heat exchange with the cold liquid as the hot liquid passes through the second heat exchanger and then through the inlet of the second channel. | 2014-08-07 |
20140217896 | METHOD AND DEVICE FOR REMOTE SENSING AND CONTROL OF LED LIGHTS - A control system is disclosed for determining an actual temperature of a light emitting diode. The control system uses conductor that supply power to the light emitting diode to supply a pulse to the light emitting diode. The pulse is determined along with a reaction caused by the pulse and the information gained is used in determination of the light emitting diode die temperature which can then be used in controlling current to the light emitting diode to control the temperature of the light emitting diode. | 2014-08-07 |
20140217897 | DRIVE CIRCUIT, ILLUMINATION LIGHT SOURCE, AND LIGHTING APPARATUS - A drive circuit is a drive circuit for turning on an LED and includes a self-excited inverter supplying power to the LED, wherein the self-excited inverter includes thermistors, and supplies, depending on temperature dependency of the thermistors, the first power value to the LED when a temperature is the first temperature, and the second power value to the LED when a temperature is the second temperature higher than the first temperature, and the second power value is smaller than the third power value that a circuit which is not provided with the thermistors and supplies the first power value to the LED when the temperature is a first temperature supplies to the LED when a temperature is the second temperature. | 2014-08-07 |
20140217898 | ELECTRICAL WIRING DEVICE - The present invention is directed to an electrical wiring device that includes at least one circuit configured to provide an output signal in response to at least one external input signal. The device further comprises a light emission and detection assembly that includes: a lamp sub-assembly coupled to the at least one circuit, the lamp subassembly including at least one light emitting element configured to emit light in response to the output signal; and an ambient light sensor sub-assembly coupled to the at least one circuit and including an ambient light sensor and a sensor housing assembly, the ambient light sensor being configured to generate the at least one external input signal in response to sensing an ambient light level in the space, the sensor housing assembly being configured to substantially isolate the ambient light sensor from the light emitted by the lamp sub-assembly. | 2014-08-07 |
20140217899 | LIGHT EMITTING MODULE - A light emitting module includes a plurality of light emitting device packages configured to be sequentially turned on or off according to the level of external drive voltage and connected to one another in series. Each of the plurality of light emitting device packages includes a light emitting cell having at least one light emitting device, and an on/off controller configured to control to turn the light emitting cell on or off. | 2014-08-07 |
20140217900 | ILLUMINATED MOLDING CONTROL SYSTEMS - Illuminated moldings with integrated control are provided. The illuminated moldings with integrated control use low voltages, are energy efficient and easy to install and use. The illuminated moldings with integrated control may be attached to various surfaces of different objects. The illuminated molding is insulated and does not carry electricity, and can be placed under water with never a risk of shock even if something damages or cuts the molding. Further, the illuminated moldings with an integrated control allow a user to control various illumination characteristics and effects such as the turn on or turn off time, the color, the brightness, the transition between various operation modes. The integrated control may be wired or wireless. | 2014-08-07 |
20140217901 | SPATIAL INTENSITY DISTRIBUTION CONTROLLED FLASH - This disclosure describes techniques for outputting light with a controlled spatial intensity distribution. According to some examples, this disclosure describes a device that includes at least one LED matrix that includes a plurality of LED elements. According to these examples, the device controls the LED elements of the LED matrix to output the light by causing at least a first LED element of the LED matrix to output light of a first intensity, and causing a second LED element of the LED matrix to output light of a second, different intensity. In some examples, the device controls the first at least one LED element to output light of the first intensity to illuminate a first object, and controls the second LED element to output light of the second intensity to illuminate a second object. The second object may have a different location than the first object. | 2014-08-07 |
20140217902 | TUNABLE LED LAMP FOR PRODUCING BIOLOGICALLY-ADJUSTED LIGHT - A tunable light-emitting diode (LED) lamp for producing an adjustable light output is provided. In one embodiment, the LED lamp includes a drive circuit for driving LED dies in one of a plurality of light output configurations (e.g., a pre-sleep configuration, a phase-shift configuration, and a general lighting configuration). Further, the LED lamp may include an output select controller and/or input sensor electrically coupled to the drive circuit to select the light output configuration. As such, the LED lamp is tunable to generate different levels of spectral output, appropriate for varying biological circumstance, while maintaining a commercially acceptable light quality and color rendering index. | 2014-08-07 |
20140217903 | NETWORKED, WIRELESS LIGHTING CONTROL SYSTEM WITH DISTRIBUTED INTELLIGENCE - A programmable lighting control system integrates time-based, sensor-based, and manual control of lighting and other loads. The system includes one or more groups of controlled lighting areas, which may be, e.g., floors of a building. Each group may have one or more lighting zones, which may be, e.g., individual rooms or offices on a building floor. Each lighting zone includes occupancy and/or daylight sensors that may be wirelessly coupled to a gateway of the group. Each gateway is coupled to a network, such as, e.g., a local area network (LAN). Control software, residing on a computer (e.g., a personal computer or a server) coupled to the network and accessible via the network, remotely communicates with and controls the lighting zones either individually, groupwise, or globally. Each lighting zone can also be locally controlled at the gateway and can function independently of the control software and the gateway. | 2014-08-07 |
20140217904 | INTELLIGENT ILLUMINATING DEVICE - An intelligent illuminating device includes at least one lamp being installable onto an object, the lamp having at least one light emitting unit and at least one light collecting unit, a light beam of the light emitting unit being projected out as the lamp turned on, the light collecting unit corresponding to a targeted region, each light collecting unit having a MCU and a PWM unit. Under this arrangement, when the light collecting unit acquires the brightness value of the targeted region, the brightness value is transmitted to the MCU and compared with a predetermined brightness value, so that a difference value is obtained and transmitted to the PWM unit; hence, the light emitting unit is controlled by the PWM unit to project a light beam with a designated intensity. | 2014-08-07 |
20140217905 | Upgradeable Automation Devices, Systems, Architectures, and Methods - A multi-level automation control architecture, methods, and systems are disclosed, which provide enhanced scalability, functionality, and cost effectiveness for energy, access, and control. The systems include various combinations of automation controllers, remote controllers and peripheral devices that are used to provide monitoring and control functionality over the various systems in a structure, such as HVAC, water, lighting, etc. In various embodiments, the automation controller and various peripheral devices are implemented to provide an integrated energy management system for the structure. The system allows the user to manage energy based on the day, time, the presence of people, and the availability of natural lighting and heating, as well as prioritize and participate in demand-response program. The system can be implemented using a remote controller and expanded through the addition of automation controllers, remote controllers, and peripheral devices to enable the system to be tailored to specific user requirements. | 2014-08-07 |
20140217906 | Remote Control Track Light Fixture - A track head unit includes a lighting device, a first sensor, a second sensor, one or more motors, and a controller. The first sensor is configured to receive transmissions from a portable remote control device. The second sensor is configured to receive transmissions associated with a target object. The one or more motors are mechanically coupled to the lighting device and are configured to position the lighting device along a first direction and a second direction. The controller is coupled to the lighting device, the first sensor, the second sensor, and the one or more motors. The controller is configured to receive a control signal from the remote control device via the first sensor, responsively transmit a locator signal to a locator that is disposed at a target object, receive a response signal via the second sensor from the remote object in response to the transmitting, and based upon the response signal, actuate the motors to aim the lighting device at the target object. | 2014-08-07 |
20140217907 | SOLID STATE LIGHTING APPARATUS INCLUDING SEPARATELY DRIVEN LED STRINGS AND METHODS OF OPERATING THE SAME - A solid state lighting apparatus can include a first string of Light Emitting Diodes (LEDs) that is configured to operate in response to a rectified ac voltage having a cycle including a null time interval when the first string is off and a second string of LEDs, that is separate from the first string of LEDs, and can be configured to emit light during at least a portion of the null time interval. | 2014-08-07 |
20140217908 | LIGHT-EMITTING DIODE LIGHTING DEVICE WITH ADJUSTABLE CURRENT SETTINGS AND SWITCH VOLTAGES - An LED lighting device includes a first luminescent device, a second luminescent device, a first current controller and a second current controller. The first current controller is coupled in parallel with the first luminescent device and configured to operate according to a first current setting, a switch-on voltage and a switch-off voltage. The second current controller is coupled in series to the second luminescent device and configured to operate according to a second current setting. The first current setting, the second current setting, the switch-on voltage and the switch-off voltage are adjusted by setting the mode selection pins of the first and second current controllers. | 2014-08-07 |
20140217909 | APPARATUS FOR DRIVING MULTI-COLOR LED STRINGS - An apparatus comprises red, green and blue LED strings each having a corresponding switching circuit. Each LED string is divided into a plurality of LED segments. The three LED strings are connected in parallel or in series. Each LED string may be connected in series with a respective current source or share a common current source. A controller controls each switching circuit so that the number of LED segments connected in series in the red, green or blue LED string can be respectively controlled according to a color setting signal and the voltage level of an input voltage. A first control method is provided for controlling the apparatus having a constant input voltage and a second control method is provided for controlling the apparatus having a periodically time-varying input voltage. | 2014-08-07 |
20140217910 | AC TO DC LED ILLUMINATION DEVICES, SYSTEMS AND METHODS - Illumination devices ( | 2014-08-07 |
20140217911 | CIRCUIT AND METHOD FOR FLICKER SUPPRESSION IN LIGHT EMITTING DIODES (LEDS) - A circuit for flicker suppression in a Light Emitting Diode (LED) has a latch. The latch has a first state set with a trailing edge of Pulse Width Modulated Dimming (PWMD) pulse, and a second state set delayed with respect to the PWMD trailing edge. A trigger circuit is coupled to the latch. The trigger circuit sends a signal to the latch to change to the second state when a decision point occurs during a time following a duty limit D | 2014-08-07 |
20140217912 | DIMMABLE LED ILLUMINATING SYSTEM, DRIVER OF THE ILLUMINATING SYSTEM, AND METHOD OF DRIVING THE ILLUMINATING SYSTEM - A dimmable LED illumination system includes a LED lamp, a switch, and a driver. The LED lamp receives electric signals to emit light; the switch is connected to a power source, and generates a pulse signal by being turned off and then on again in a predetermined time; the driver connects the switch to the LED lamp to convert electric power of the power source into the electric signals which are supplied to the LED lamp when the switch is turned on. In addition, the driver saves a setting luminance, a default illumination mode, and a luminance adjustment mode. When the driver receives the pulse signal, one of the two modes is selected to light the LED lamp. | 2014-08-07 |
20140217913 | LED DRIVER - A LED driver system ( | 2014-08-07 |
20140217914 | PROGRAMMABLE LUMINAIRE AND PROGRAMMABLE LUMINAIRE SYSTEM - A programmable luminaire system may comprise a programmable luminaire comprising an optic defining an optical chamber, a light source comprising a plurality of light-emitting elements, a controller operably coupled with the plurality of light-emitting elements, and an electrical connector electrically coupled with the controller. The system may further comprise a computerized device configured to electrically communicate with the programmable luminaire. The computerized device may be configured to transmit data to the programmable luminaire. The programmable luminaire may be configured to receive the data from the computerized device at the electrical connector. The controller may be configured to be programmed responsive to the data received by the controller. | 2014-08-07 |
20140217915 | REGULATION OF WAVELENGTH SHIFT AND PERCEIVED COLOR OF SOLID STATE LIGHTING WITH INTENSITY VARIATION - Representative embodiments of the invention provide a system, apparatus, and method of controlling an intensity and spectrum of light emitted from a solid state lighting system. The solid state lighting system has a first emitted spectrum at a full intensity level and at a selected temperature, with a first electrical biasing for the solid state lighting system producing a first wavelength shift, and a second electrical biasing for the solid state lighting system producing a second, opposing wavelength shift. Representative embodiments provide for receiving information designating a selected intensity level or a selected temperature; and providing a combined first electrical biasing and second electrical biasing to the solid state lighting system to generate emitted light having the selected intensity level and having a second emitted spectrum within a predetermined variance of the first emitted spectrum over a predetermined range of temperatures. | 2014-08-07 |
20140217916 | METHOD AND APPARATUS FOR ALTERING A COLOR OF A MIXTURE OF LIGHT PROVIDED BY MIXING OUTPUTS OF LIGHT FROM MULTIPLE LAMPS - A system including first and second lamps, one of an inductor or a transformer, first and second switches, and a control module. The first lamp generates a first output of light having a first color. The second lamp generates a second output of light having a second color. The first and second outputs of light are mixed to provide a mixture of light having a third color. The transformer includes first and second coils. The first and second coils supply power respectively to the first and second lamps. The first and second switches are connected respectively to the first and second coils. The control module alters the third color by controlling (i) a state of the first switch to adjust a first amount of current supplied to the first lamp, and (ii) a state of the second switch to adjust a second amount of current supplied to the second lamp. | 2014-08-07 |
20140217917 | DIGITAL CONTROLLER FOR AN ELECTRONIC BALLAST - Provided are circuits and methods for a digital controller for an electronic ballast for a fluorescent lamp, comprising a feed-forward loop that provides information about a voltage firing angle, and a pulse width modulator that controls a duty ratio of at least one power switch of the electronic ballast according to the information. The digital controller may include a duty ratio controller implemented in the pulse width modulator. The digital controller may include one or more functions such as dimming, maintaining high power factor throughout the dimming range, low lamp power detection, lamp soft-start, and DC-link capacitor over-voltage detection for end of life protection or lamp failure protection. In one embodiment the ballast is a single stage, single switch ballast. | 2014-08-07 |
20140217918 | Driver Circuits for Solid State Light Bulb Assemblies - A driver circuit of solid state light bulb assemblies including light emitting diodes comprises a first power converter stage converting an input voltage into an intermediate voltage; a second power converter stage converting the intermediate voltage into a drive voltage for the light source; and a controller. The controller comprises a first control unit generating a first control signal for the first power converter stage; a second control unit generating a second control signal for the second power converter stage; and a state control unit determining a target state of the light source; wherein the first and second control units are receiving information indicative of the target state; and wherein the first and second control units are generating the first and second control signals based on the information indicative of the target state. | 2014-08-07 |
20140217919 | LED LIGHTING DEVICE AND ILLUMINATING DEVICE - According to one embodiment, an LED lighting device comprises at least one normally-on type switching element, an output generation unit that generates DC output by an on-off operation of the switching element, a semiconductor light emitting element that is lit by the DC output generated by the output generation unit, and a driving control unit that causes the switching element to perform an off operation using a current passed through the semiconductor light emitting element. | 2014-08-07 |
20140217920 | Toggle Switch And Variable Actuator Control - The present invention is directed to a device for regulating an amount of electrical power provided to at least one electrical load, the device comprising a control circuit disposed in the housing and including at least one switch device movable between a first switch state and a second switch state. The control circuit further includes a power control element that has a power control actuator configured to adjust the amount of power provided to the at least one electrical load. A variable control actuator is accessible to the user via the control aperture and coupled to the power control actuator via a linkage structure. The linkage structure further includes a pin and channel arrangement configured to convert a user control action into a power control actuator adjustment by translating rotational motion into linear motion or linear motion into rotational motion. | 2014-08-07 |
20140217921 | LINEARLY DIMMING CIRCUIT OF LIGHT-EMITTING DEVICE AND METHOD THEREOF - A linearly dimming circuit of a light-emitting device, includes a diming signal processing unit, having a dimming signal input terminal and a current setting output terminal, wherein the dimming signal input terminal receives a luminance percentage setting to set a luminance of the light-emitting device to be a maximal luminance multiplying the luminance percentage setting, the dimming signal processing unit generates a current percentage setting according to the luminance percentage setting, the current setting output terminal outputs a driving current setting which sets the driving current to be a maximal driving current multiplying the current percentage setting; a light-emitting device driver stage, having a current setting input terminal and a driving current output terminal, wherein the current setting input terminal couples to the current setting output terminal and receives the driving current setting, the driving current output terminal outputs the driving current to the light-emitting device. | 2014-08-07 |
20140217922 | DIMMABLE LED LAMP - A dimmable LED lamp, which receives power from a DC power source to emit light, includes a main body, a DC/DC converter, and a LED module; wherein the main body is hollow, and includes a conductive portion made of a conductive material, wherein the conductive portion is connected to the DC power source; the DC/DC converter is provided in the main body, and is electrically connected to the conductive portion of the main body to receive a power from at least a DC power source; the DC/DC converter converts a voltage of the power provided by the DC power source into a corresponding current; the LED module is provided on the main body, and is electrically connected to the DC/DC converter to emit light with luminance corresponding to the current received from the DC/DC converter. | 2014-08-07 |
20140217923 | DIMMABLE LED ILLUMINATING SYSTEM - A dimmable LED illumination system includes a power converting circuit and a lamp. The power converting circuit is electrically connected to a power source to convert electric power of the power source into a voltage signal. The lamp includes a DC/DC converter and a LED module, wherein the DC/DC converter is electrically connected to the power converting circuit to convert the voltage signal into a corresponding current signal. The LED module is electrically connected to the DC/DC converter to be driven by the current signal to emit light. By adjusting a voltage provided by the power converting circuit, a current provided by the DC/DC converter could be adjusted as well, which changes a luminance of the LED module. | 2014-08-07 |
20140217924 | ORGANIC EL DISPLAY APPARATUS - In an organic EL display apparatus, a chromaticity change of image display due to deterioration in an OLED is corrected. The organic EL display apparatus includes an EC element layer formed of one kind or a plurality of kinds of electrochromic elements which are disposed on an OLED portion and develop colors. Each of the electrochromic elements has a peak in a transmission spectrum during development of a color in any one of the emission wavelength bands of the pixels corresponding to the plurality of colors. The electrochromic element receives a DC voltage from a driver so as to be driven. Chromaticity of image display is adjusted by controlling a color development intensity of the electrochromic element by using the DC voltage which is applied by the driver. | 2014-08-07 |
20140217925 | INPUT VOLTAGE TRANSFER APPARATUS FOR LIGHT EMITTING DIODE LIGHTING SYSTEM - An input voltage transfer apparatus for an LED lighting system is provided. The input voltage transfer apparatus includes a source voltage storage unit, a zero voltage switching unit, and a nonzero voltage switching unit. The source voltage storage unit stores a source voltage. The zero voltage switching unit turns on according to the source voltage stored in the source voltage storage unit when a zero voltage is inputted. The nonzero voltage switching unit turns on according to a current applied thereto through the zero voltage switching unit when a nonzero voltage is inputted. When the nonzero voltage switching unit is turned on, the source voltage storage unit discharges the stored source voltage. | 2014-08-07 |
20140217926 | LIGHT EMITTING DIODE REPLACEMENT LAMP - Thermal management and control techniques for light emitting diode and other incandescent replacement light technologies using a current controller are disclosed. | 2014-08-07 |
20140217927 | TEMPERATURE DEPENDENT HYBRID LIGHT BULB - A hybrid light bulb is configured to automatically select a low heat emitting (low power) mode such as a CFL bulb portion when ambient temperature is above a predetermined threshold, and to select a high heat emitting (conventional incandescent or halogen bulb) portion when ambient temperature is below the predetermined threshold | 2014-08-07 |
20140217928 | DATA RELAY FOR A CONTROLLER - A two-conductor hard-wired communications link accepts a value of at least one parameter from an environmental sensor in the form of data encoded on the conductors via current modulation. The sensor can be mounted in a location remote from a controller. A circuit connected to the sensor transmits an RF signal representing the value of the parameter detected by the sensor. A data relay connects to the hard-wired communication link of the controller. The data relay includes a receiver that receives the RF signal, and circuitry configured to extract the value of the parameter and to emulate a set of physical and protocol properties of the hard-wired communication link of the controller. | 2014-08-07 |
20140217929 | STICTION RESISTANT MEMS DEVICE AND METHOD OF OPERATION - A MEMS device ( | 2014-08-07 |
20140217930 | System and Method for Efficient Drive of Capacitive Actuators with Voltage Amplification - A circuit for driving a plurality of capacitive actuators, the circuit having a low-voltage side, a high voltage side and a flyback transformer between the two. The low-voltage side comprises first and second pairs of low-side switches connected in series across an input voltage. The flyback transformer has a primary winding connected to the two pairs of switches. The high-voltage side has a pair of switches connected between the secondary winding of the flyback transformer and a ground and a plurality of capacitive loads and bidirectional switches to connect the loads to the secondary winding of the flyback transformer and a ground. | 2014-08-07 |
20140217931 | DRIVE CIRCUIT AND PHYSICAL QUANTITY MEASURING DEVICE - In order for keeping the amplitude of the excitation current of a vibrator constant irrespective not only of the temperature variation but also of the manufacturing variation and the variation in frequency, a comparison control circuit for controlling the amplitude of the drive signal for exciting the vibrator includes a comparative voltage supply circuit for supplying the comparative voltage, and the comparative voltage supply circuit generates the comparative voltage with a constant current source and a second resistor made of a material the same as a material of a first resistor included in a current-voltage conversion circuit. | 2014-08-07 |
20140217932 | MAGNETOSTRICTIVE ACTUATOR - A method of minimizing the cold start delay and impact fatigue of an actuator includes calibrating the actuator by initially raising the temperature to a desired operating temperature through induction heating of the actuator rod. Additionally, a control system for a magnetostrictive actuator includes a rod of magnetostrictive material, a solenoid coil wrapped at least once around said rod, and a controller operatively connected to said solenoid coil wherein the controller detects an impact of the rod with another surface and adjusts the operation of the actuator to minimize the potential for additional future impacts. The rod may be segmented and include end caps to further reduce the potential for impact fatigue. | 2014-08-07 |
20140217933 | METHOD AND SYSTEM FOR CONTROLLING MOTOR - A method for controlling a motor to enable drive assist of an engine with a high torque in a low rotation speed range as well as synchronized driving in a high rotation speed range. The method includes controlling a motor connected to a low voltage battery. The motor has a reluctance torque higher than a magnetic torque at a time of a highest torque generation. The motor includes a rotor connected to an output shaft of an engine. | 2014-08-07 |
20140217934 | MOTOR-DRIVEN APPLIANCE AND BATTERY PACK - A motor-driven appliance includes a battery; a motor including permanent magnets as field magnets; a momentary maximum current upper limit storage unit in which a predetermined momentary maximum current upper limit is stored; a current detection unit that detects a current flowing in the motor; a current threshold setting unit that generates a current threshold based on the momentary maximum current upper limit, and outputs the generated current threshold; a current exceedance determination unit that determines whether the current detected by the current detection unit has become equal to or greater than the current threshold, and outputs an interruption signal used to interrupt a current path from the battery to the motor when the detected current has become equal to or greater than the current threshold; and a current flow interruption unit that interrupts the current path when the interruption signal is outputted from the current exceedance determination unit. | 2014-08-07 |
20140217935 | Motor Control Device - A motor control device according to the invention includes: a mode setting section that sets one of a first mode in which a charge/discharge current of a secondary battery varies according to load fluctuation of a motor and a second mode in which the charge/discharge current of the secondary battery becomes constant for a predetermined time regardless of the load fluctuation of the motor; and a drive signal generating section that generates a drive signal for driving the motor on the basis of the mode that is set by the mode setting section, a torque command value, and a motor rotation speed. | 2014-08-07 |
20140217936 | DRIVE DEVICE AND DRIVE METHOD FOR BRUSHLESS MOTOR - The invention relates to a drive device and a drive method for a brushless motor. In a drive method in which a switching timing of energization patterns is detected by comparing a pulse induced voltage of a non-energized phase with a voltage threshold, when the pulse induced voltage does not reach the voltage threshold, the pulse induced voltage at an angle of switching the energization patterns is measured. Discrimination between a demagnetization failure and a lock failure is performed based on whether the measured pulse induced voltage satisfies a predetermined condition or not. When it is the demagnetization failure, motor control continues after changing the voltage threshold. When it is the lock failure, the motor control stops. | 2014-08-07 |
20140217937 | SINGLE-PHASE BRUSHLESS MOTOR DRIVER AND METHOD - A driving circuit for a single-phase-brushless motor and a method that includes a driving-signal-generating circuit configured to generate a driving signal for supplying, to a driving coil of the single-phase brushless motor, an output circuit coupled to the driving signal generating circuit; and an induced voltage zero-cross detecting circuit having a plurality of inputs and an output, a first input coupled to the driving signal generating circuit and configured to detect a zero cross of an induced voltage in response to operation in the de-energized period. | 2014-08-07 |
20140217938 | MOTOR CONTROLLER WITH DRIVE-SIGNAL CONDITIONING - An embodiment of a motor controller includes a motor driver and a signal conditioner. The motor driver is operable to generate a motor-coil drive signal having a first component at a first frequency, and the signal conditioner is coupled to the motor driver and is operable to alter the first component. For example, if the first component of the motor-coil drive signal causes the motor to audibly vibrate (e.g., “whine”), then the signal conditioner may alter the amplitude or phase of the first component to reduce the vibration noise to below a threshold level. | 2014-08-07 |
20140217939 | APPARATUS AND METHOD OF DECREASING SPEED OF SENSORLESS BRUSH LESS DIRECT CURRENT (BLDC) MOTOR - Disclosed herein is an apparatus of a sensorless brush less direct current (BLDC) motor capable of rapidly driving the BLDC motor at a decreased speed. The apparatus includes: a switching unit configured to switch a direct current (DC) power depending on a plurality of pulse width modulation (PWM) signals to generate a three-phase alternating current (AC) power and apply the generated three-phase AC power to the BLDC motor to drive the BDLC motor; a plurality of voltage dividers configured to divide voltages of reverse electromotive forces generated in the BLDC motor; and a controlling unit configured to calculate a current rotation speed of the BLDC motor using output signals of the plurality of voltage dividers, generate the plurality of PWM signals depending on the calculated current rotation speed and a command rotation speed and output the plurality of PWM signals to the switching unit, divide a rotation phase angle of the BLDC motor into a speed decreasing region and a zero crossing point (ZCP) detecting region in the case of decreasing a rotation speed of the BLDC motor, decrease the rotation speed of the BLDC motor in the case in which the rotation phase angle of the BLDC motor is in the speed decreasing region, and detect ZCPs of the reverse electromotive forces in the case in which the rotation phase angle of the BLDC motor is in the ZCP detecting region. The apparatus may very rapidly decrease a speed of the BLDC motor to a required speed. | 2014-08-07 |
20140217940 | ELECTRICALLY OPERATED POWER STEERING DEVICE - An electric power steering apparatus includes an EPS actuator that applies assist force to a steering system, and an ECU that controls operation of the EPS actuator. The ECU includes an inverter device, a gate driver circuit, a gate driver power source, a microcomputer, and the like. The microcomputer switches assist control to assist stop control, based on an indication of a voltage decrease in the gate driver power source. | 2014-08-07 |
20140217941 | MOTOR CONTROL SYSTEM - A motor control system includes: a power supply; a converter; an inverter; an alternating-current motor; and a control unit that drives the motor in any one of sinusoidal PWM control, overmodulation control and rectangular wave control through operation control of the converter and the inverter. The control unit starts step-up operation of the converter when a current vector of motor current of the motor on a d-q coordinate plane becomes a current phase corresponding to motor torque, at which a system loss is equal between before and after starting the step-up operation, while the control unit supplies the direct-current voltage, supplied from the power supply, to the inverter without stepping up the direct-current voltage by the converter and performs the rectangular wave control of the motor in a state where the current phase is an optimal current phase. | 2014-08-07 |
20140217942 | DRIVING SYSTEM FOR DRIVING SWITCHING ELEMENT - In a driving system, an applying module apples, in response to an input of an on or off command as a switching command, a switch signal to a target switching element as a high- or low-side switching element to switch the target switching element to be an on or off state. A measuring module measures a delay period defined as a time interval from a first time to a second time. The first time represents a time at which the switching command is switched from one of the on command and the off command to the other. The second time represents a time at which the target switching element is actually switched to be the on or off state. An adjusting module adjusts, based on the delay period, an input timing of a next switch signal applied from the applying module to the target switching element. | 2014-08-07 |
20140217943 | DETERMINING A POSITION OF A MOTOR USING AN ON-CHIP COMPONENT - An embodiment of a motor controller includes first and second supply nodes, a motor-coil node, an isolator, a motor driver, and a motor position signal generator. The isolator is coupled between the first and second supply nodes, and the motor driver is coupled to the second supply node and to the motor-coil node. The motor position signal generator is coupled to the isolator and is operable to generate, in response to the isolator, a motor-position signal that is related to a position of a motor having at least one coil coupled to the motor-coil node. By generating the motor-position signal in response to the isolator, the motor controller or another circuit may determine the at-rest or low-speed position of a motor without using an external coil-current-sense circuit. | 2014-08-07 |
20140217944 | PERMANENT MAGNET MOTOR WITH SINUSOIDAL BACK-EMF WAVEFORM AND RELATED MOTOR CONTROLLER FOR POSITION SENSORLESS DRIVES - A system includes a permanent magnet motor having a rotor and a stator. The rotor and the stator have a configuration that causes the motor to generate a back-electromagnetic force (EMF) waveform that is substantially sinusoidal. The system also includes a motor controller having a sliding-mode observer configured to identify the back-EMF waveform and a position observer configured to estimate at least one characteristic of the motor using the identified back-EMF waveform. The stator may include multiple teeth projecting towards the rotor and multiple conductive windings, where each conductive winding is wound around a single tooth. The rotor may include multiple magnetic poles, where each magnetic pole has a span of about 60° or less. The sliding-mode observer may be configured to receive current measurements associated with three-phase signals and voltage commands generated by the motor controller. The position observer may include a proportional-integral (PI) regulator. | 2014-08-07 |
20140217945 | CONTROL TECHNIQUES FOR MOTOR DRIVEN SYSTEMS UTILIZING BACK-EMF MEASUREMENT TECHNIQUES - A method and apparatus for automatic resonance detection is disclosed for a motor-driven mechanical system such as a voice coil motor (VCM) in which a resonance detector and driver are provided. The automatic resonance detector may be implemented on the same integrated circuit as the driver, and dynamically determines the natural resonant frequency of the VCM driven by the driver. The resonant frequency is determined by measuring the back electromotive force (BEMF) of the VCM, detecting the slope of the BEMF signal, and determining the resonant frequency from the slope of the BEMF signal. | 2014-08-07 |
20140217946 | INVERTER DEVICE AND MOTOR DRIVE SYSTEM - An inverter device includes a power supply unit and a switch controller. The power supply unit supplies AC power to an AC motor whose electric characteristics in response to a rotation speed are switchable between low speed characteristics and high speed characteristics. The switch controller switches the electric characteristics of the AC motor. The switch controller executes switching control that alternately switches the electric characteristics of the AC motor between the low speed characteristics and the high speed characteristics on the basis of the rotation speed of the AC motor. | 2014-08-07 |
20140217947 | SHORT CIRCUIT SAFE RECTIFIER STAGE FOR A SUBSEA POWER GRID - Short circuit safe rectifier stage for a subsea power grid It is described a rectifier stage ( | 2014-08-07 |
20140217948 | METHOD FOR CONTROLLING A MULTIPHASE MACHINE - A method for controlling a multiphase machine which is connected to a direct current voltage source. The machine has a DC link which is provided with a DC link capacitor, phase windings, and a high side switch and a low side switch for each phase. The switches associated with the individual phases are acted on by control signals from a control unit. For reducing the DC link current, the control unit provides block-shaped control signals for the switches associated with the individual phases in such a way that trapezoidal or pulsed phase currents are predefined, at least one phase current is connected at any point in time in each control cycle, and the value of the amplitude ratio of the predefined phase currents is selected in such a way that the connected phase currents correspond to the instantaneous current of the direct current voltage source. | 2014-08-07 |
20140217949 | METHOD OF PWM REGULATION OF A CONTINUOUS CURRENT ELECTRIC MOTOR - A method of PWM regulating a motor through a half-bridge drive stage includes sampling the motor current to obtain sampled values during driving intervals or during current decay intervals, and comparing a last sampled value with a current threshold. The motor is coupled in a slow decay electrical path for the duration of a current decay interval if the last sampled value does not exceed the current threshold. Otherwise the motor is coupled in a fast decay electrical path for a portion of the duration of the current decay interval, and is coupled in the slow decay electrical path for a remaining part of the duration of the same current decay interval. | 2014-08-07 |
20140217950 | CONSTANT VOLTAGE CIRCUIT AND ANALOG ELECTRONIC CLOCK - There are provided a constant voltage circuit that outputs a stable constant voltage for an analog electronic clock, and an analog electronic clock featuring low current consumption and prolonged battery life. The constant voltage circuit has a first voltage holding circuit connected between the gate of an output transistor and an output terminal and a second voltage holding circuit connected between the gate of the output transistor and a ground terminal, and carries out control such that the second voltage holding circuit is enabled when the motor is operated. | 2014-08-07 |
20140217951 | MOTOR CONTROL DEVICE AND MOTOR CONTROL METHOD - A motor control device includes a power converter, a velocity controller, and a certain-position stop controller. The power converter outputs a driving current on the basis of an input torque command. The velocity controller generates a calculated torque command on the basis of a difference between a velocity represented by a velocity command and a motor velocity. The certain-position stop controller performs position control by, after first detecting a reference position of a motor during velocity control, generating a position command for positioning the motor from the reference position to a target stop position at a torque of a torque schedule, generating the velocity command on the basis of a difference between a position represented by the position command and the motor position, and outputting a value resulting from adding a torque feedforward command generated on the basis of the torque schedule to the calculated torque command. | 2014-08-07 |
20140217952 | Position Control Apparatus - A position control apparatus is configured to perform full-closed control for controlling the position of a driven member. The position control apparatus includes a vibration period and amplitude detector that detects a vibration period and a vibration amplitude included in a difference value between the position command value and the driven member position detection value. The position control apparatus also includes a constant vibration detector that outputs, as a vibration period of the constant vibration, a vibration period obtained while the driven member is not in an acceleration/deceleration state and the vibration period and the vibration amplitude detected by the vibration period and amplitude detector are equal to or greater than a vibration period threshold value and a vibration amplitude threshold value, respectively. The position control apparatus also includes a control parameter changer that changes the control parameter based on the vibration period output from the constant vibration detector. | 2014-08-07 |
20140217953 | Waste Heat Recovery System of Vehicle - A waste heat recovery system of a vehicle generally comprises a heat source, an air-passage body, and a heat-preservation container. The heat source is provided with a pipe. The air-passage body is coupled to the pipe. The air-passage body defines therein a chamber and at least one passage communicating with the chamber, wherein the chamber communicates with the pipe for collecting the waste heat energy transferred by the pipe. The heat-preservation container, being placed above the air-passage body, communicates with the passage of the air-passage body and is provided with multiple heat-transfer elements therein. With the waste heat recovery system, the waste heat energy can be transferred via air from the heat source to the container to enable the container to keep at a lower temperature for food or articles required to be warmed. Furthermore, the waste heat energy enables a conversion module in the chamber to generate electrical power. | 2014-08-07 |
20140217954 | SHINE ON SOLAR TABLE - A table is disclosed that uses a built-in solar panel to collect and store electrical energy. The table uses the solar panel as part of the table top. The table includes electrical outlets for both 12-volt DC power and 110-volt AC power. | 2014-08-07 |
20140217955 | CHARGE APPARATUS - A charge apparatus including a natural energy conversion module, an energy converter, an energy transmitter, an energy receiver, and an electricity storage device is provided. The natural energy conversion module receives the natural energy and converts the natural energy into a first electric energy. The energy converter is electrically connected to the natural energy conversion module and converts the first electric energy into a wireless energy. The energy transmitter is electrically connected to the energy converter and transmits the wireless energy. The energy receiver receives the wireless energy and converts the wireless energy into a second electric energy to charge an external apparatus. The energy transmitter monitors the current charge status of the external apparatus so as to adjust transmitting the wireless energy. The electricity storage device is electrically connected to the natural energy conversion module to store the first electric energy. | 2014-08-07 |
20140217956 | CHARGING SYSTEM FOR VEHICLE, METHOD FOR CHARGING VEHICLE, POWER SUPPLY SYSTEM, AND POWER SUPPLY METHOD - A vehicle includes a first inlet to be connected to a commercial power source, a second inlet to be connected to a battery of an HEMS (Home Energy Management System) which supplies electric power greater than electric power supplied by the commercial power source, and an ECU. The ECU indicates one of the first inlet and the second inlet to a user in accordance with a state of a battery of the vehicle. | 2014-08-07 |
20140217957 | Supply System and Method for Supplying an Electric Load - A system for supplying an electric load, in particular for charging a battery device, including a charging station with an accommodation unit for the battery device and a detection unit for the battery device. The detection unit includes a first optical transmitting device for transmitting a first optical signal and an optical receiving device for receiving the first optical signal. The battery device includes a second optical transmitting device for transmitting a second and third optical signal, the second optical transmitting device functioning as a transmitter of a discretely configured optocoupler for transmitting information from the battery device to the charging station. The optical receiving device of the charging station is configured as a receiver of the discretely configured optocoupler for receiving the second and third optical signals. | 2014-08-07 |
20140217958 | MITIGATING PREMATURE WEAR OUT OF A RECHARGEABLE BATTERY - A computer-implemented method and information handling system manage a rate of decreasing full capacity of a rechargeable battery by using a projected/target rate of decreasing charge capacity for the battery. The method includes determining an actual rate of decreasing charge capacity of the battery, comparing the actual rate of decreasing charge capacity to the projected/target rate of decreasing charge capacity to determine whether the actual rate of decreasing charge capacity is greater than the projected rate of decreasing charge capacity, and if the actual rate of decreasing charge capacity is greater than the projected/target rate of decreasing charge capacity, modifying one or more variable parameters to slow down the actual rate of decreasing charge capacity of the battery such that the actual rate of decreasing charge capacity remains within a range of the projected/target rate of decreasing charge capacity, and charging and discharging the battery using the modified parameters. | 2014-08-07 |
20140217959 | HYBRID BOOTSTRAP CAPACITOR REFRESH TECHNIQUE FOR CHARGER/CONVERTER - The disclosed embodiments provide a synchronous switching converter that converts a DC input voltage into a DC output voltage. This synchronous switching converter includes a high-side switching MOSFET coupled between an input node and a first node. The converter also includes a low-side switching MOSFET coupled between the first node and a ground node and is in series with the high-side switching MOSFET. This converter additionally includes a bootstrap capacitor coupled to the high-side switching MOSFET to provide turn-on voltage for the high-side switching MOSFET. Furthermore, the converter includes a main refresh circuit coupled to the bootstrap capacitor and is configured to refresh the bootstrap capacitor during a first operating mode of the synchronous switching converter. Moreover, the converter includes an auxiliary refresh circuit coupled to the main refresh circuit and the bootstrap capacitor and is configured to refresh the bootstrap capacitor during a second operating mode of the converter. | 2014-08-07 |
20140217960 | SELF-ADAPTING VOLTAGE AMPLIFIER AND BATTERY CHARGER DETECTION - An amplifier applies a self-adapting voltage to an output terminal. A bias circuit provides a greater bias current in a first external connection condition, in the absence of a pull-up resistance connected to the output terminal, than when such a pull-up resistance is present. The amplifier applies a different voltage to the output terminal in the absence of a pull-up resistance than when such a pull-up resistance is present. The circuit can be used in a portable device for receiving charging current from a battery charger through a connector having a D+ pin for connection to the battery charger and connected to the amplifier output terminal for battery charger detection. The portable device can meet the USB battery charger specification rev. 1.2. | 2014-08-07 |
20140217961 | PORTABLE POWER SUPPLY HAVING LOWER CHARGING VOLTAGE THAN DISCHARGING VOLTAGE - The portable power supply contains at least a first battery, at least a second battery, at least a first switch element, at least a second switch element, a plurality of charging and regulating circuits, an input interface element, and an output interface element. Each second battery is electrically connected in series with a first battery through a first switch element. Each second switch element is electrically connected in-series between ground and a first battery or a second battery. Each charging and regulating circuit is electrically connected to a first battery or a second battery The input interface element has an end electrically connected to an external power source, and another end electrically connected to all charging and regulating circuits. The output interface element has an end electrically connected to an external electronic device, and another end electrically connected to a first battery or a second battery. | 2014-08-07 |
20140217962 | CHARGING APPARATUS AND CHARGING METHOD - A charging apparatus includes a plurality of charging ports configured to charge external devices; a switch unit configured to connect or block power to or from each of the plurality of charging ports; and a controller configured to control so that an amount of current being supplied to at least one of the plurality of charging ports is increased depending on a power connection status for each of the plurality of charging ports in a rapid charging mode. | 2014-08-07 |
20140217963 | PROTECTIVE CIRCUIT - A protective circuit is provided. The protective circuit includes a charging unit, a voltage regulating unit, and a comparing unit. The charging unit receives a rise signal and an over-current signal, and outputs a first reference voltage. The voltage regulating unit receives the first reference voltage and adjusts an output voltage according, to the first reference voltage and a feedback voltage. The comparing unit receives the feedback voltage and compares the feedback voltage with a first threshold voltage to determine whether to output the rise signal to the charging unit. | 2014-08-07 |
20140217964 | POWER CONVERSION EQUIPMENT - A power conversion equipment or apparatus includes an AC/DC conversion circuit which rectifies and converts an alternating current power source to a direct current, and a DC/AC conversion circuit which converts the direct current to a high frequency three-phase alternating current voltage having 3N pulses times a fundamental wave frequency in a half cycle, the fundamental wave frequency being higher than the frequency of the alternating current power source. The power conversion equipment also includes a three-phase high frequency transformer having a primary winding that is connected to the output of the DC/AC conversion circuit, a rectifier circuit which rectifies a secondary winding voltage of the three-phase high frequency transformer, and a filter circuit connected to the direct current output of the rectifier circuit. | 2014-08-07 |
20140217965 | DEVICE FOR WIRELESS CHARGING HAVING A PLURALITY OF WIRELESS CHARGING PROTOCOLS - A receiver device configured to connect to a chargeable device, including an inductive region including at least one receiver coil for receiving magnetic flux from an inductive charging system. Additionally the receiver device includes a conductive region having contacts for receiving wireless electric power from a conductive charging system. In addition, the receiver device includes a connector for transferring wireless power received from the inductive or conductive charging system to the chargeable device in order to charge the chargeable device. | 2014-08-07 |
20140217966 | Alignment, Verification, and Optimization of High Power Wireless Charging Systems - Provided are a method and apparatus and method for the alignment, verification and optimization of wireless charging systems manufactured for use and used with electric vehicles. With some minimal modifications the same apparatus may be used to align a charging coil mounted on a vehicle with a charging coil, mounted on or in an electric vehicle charging bay or parking space, or to verify and optimize manufactured wireless vehicle charging system elements before they are installed. | 2014-08-07 |
20140217967 | SYSTEMS AND METHODS FOR OPTIMALLY DELIVERING PULSED WIRELESS POWER - A transmitter assembly is useful in optimizing in the delivery of wireless power to a plurality of receivers. Each receiver measures its own battery need for power and transmits that measurement as a request to the transmitter. The transmitter is configured to normalize and compare battery need requests. The transmitter then allocates pulses of wireless power among the requesting receivers according to their battery need. | 2014-08-07 |
20140217968 | CONTACTLESS BATTERY CHARGER, ELECTRONIC DEVICE, BATTERY PACK, AND CONTACTLESS CHARGING SYSTEM - A contactless charging system is made up of an electronic device and a contactless charger | 2014-08-07 |
20140217969 | FEED UNIT, ELECTRONIC UNIT, AND FEED SYSTEM - A power receiving circuit, a power transmitting circuit, an apparatus, and a feed system are disclosed. The power receiving circuit receives power in a noncontact manner, and includes an LC parallel resonant circuit and a reactance element that is electrically connected in series to the LC parallel resonant circuit. The reactive element may be a capacitive or inductive element. In effect, a coil or capacitor in the LC parallel resonant circuit and the reactance element define another LC resonant circuit, namely, an LC series resonant circuit. The power transmitting circuit transmits power in a noncontact manner, and in one example, may also include a similar configuration. | 2014-08-07 |
20140217970 | NON-CONTACT CHARGING MODULE, ELECTRONIC APPARATUS, AND NON-CONTACT CHARGING APPARATUS - This non-contact charging module can be suitably used by suppressing a change of an L value of a coil that is provided in the non-contact charging module, and achieves size reduction, even in the cases where a magnet that is provided in the other non-contact charging module is used or not used. The module is characterized in that: the module is provided with a primary side coil ( | 2014-08-07 |
20140217971 | ELECTRIC VEHICLE SUPPLY EQUIPMENT AND CONTROL METHOD THEREOF - A voltage at an output end of a switch of an electric vehicle supply equipment is detected before charging an electric vehicle. An earth leakage circuit breaker is tripped for cutting off power inputted to the switch and preventing the output end from outputting the power when the voltage is higher than a first predetermined value. The switch is turned on for outputting the power from the output end to charge the electric vehicle when the voltage is lower than the first predetermined value. A current is detected at the output end. Power inputted to the switch is cut off for preventing the output end from outputting the power when the current is higher than a second predetermined value. | 2014-08-07 |
20140217972 | VEHICLE AND POWER SUPPLY SYSTEM - A vehicle includes a charging unit receiving electric power supplied from an external power supply through a power feeding cable connected to an inlet for charging a power storage device; a discharging unit for supplying electric power from the power storage device to the power feeding cable through the inlet; a discharge relay; and a charge relay. When ending a discharging operation, an ECU outputs an opening instruction to the discharge relay and determines based on the state of a power line during output of the opening instruction whether the discharge relay is welded or not. When starting the discharging operation, the ECU outputs a closing instruction to the discharge relay and does not determine during output of the closing instruction whether the discharge relay is welded or not. | 2014-08-07 |
20140217973 | CHARGING APPARATUS AND ELECTRIC VEHICLE INCLUDING THE SAME - A charging apparatus and an electric vehicle including the same are disclosed. The charging apparatus includes a converter for, in a charging mode, converting an input alternating current (AC) voltage into a direct current (DC) voltage and a controller for controlling the converter. The converter includes a motor and a switching unit that is connected to an additional coil wound on a stator of one phase of the motor, and that supplies the input AC voltage to the motor by performing a switching operation. The converter also includes an inverter that, in a motor operation mode, converts a DC voltage from a battery into an AC voltage by a switching operation and drives the motor. In the charging mode, the inverter converts the input AC voltage into the DC voltage using the additional coil of the motor and the switching unit and supplies the DC voltage to the battery. | 2014-08-07 |
20140217974 | CHARGING APPARATUS AND ELECTRIC VEHICLE INCLUDING THE SAME - A charging apparatus and an electric vehicle including the same are disclosed. The charging apparatus includes a converter for, in a charging mode, converting an input alternating current (AC) voltage into a direct current (DC) voltage, and a controller for controlling the converter. The converter includes a motor, and a switching unit for supplying the input AC voltage to the motor by performing a switching operation. The converter also includes an inverter for, in a motor operation mode, converting a DC voltage from a battery into an AC voltage by performing a switching operation of three-phase switching elements and driving the motor. In the charging mode, the inverter operates switching elements of at least one phase of the three-phase switching elements and converts the voltage received from the motor into a predetermined DC voltage. | 2014-08-07 |
20140217975 | DELIVERY VEHICLE SYSTEM AND CHARGE METHOD FOR DELIVERY VEHICLE - In a system of charging a transport vehicle electric storage device immediately, transport vehicles under control of a ground controller and travelling using an electric storage device as a power source travel along a predetermined travelling route. Chargers including a rectifier rectifying alternating current into direct current, an electric storage device in the charger charged by the rectifier, and a charging coupler charging the electric storage device in the transport vehicle are disposed in locations along the travelling route. The vehicle includes a unit that report a position and residual capacity of the electric storage device to the ground controller, and the ground controller includes a charging management unit that selects a transport vehicle in accordance with the residual capacities of the electric storage devices in the transport vehicles and positions of the transport vehicles, selecting and specifying a charging coupler for the selected vehicle, and controlling so that the selected transport vehicle stops and charges at the specified charging coupler. | 2014-08-07 |
20140217976 | SYSTEMS AND METHODS FOR BATTERY LIFE MAXIMIZATION UNDER FIXED-ROUTE APPLICATIONS - An embodiment of the invention provides a method of charging an energy storage system for an electric vehicle. The method includes determining the estimated consumption for a specific route of the electric vehicle at different times and setting a target end point for the energy storage system based upon a minimum state of charge level for the energy storage system. The method further includes determining charge set points for the energy storage system based upon the target end point and the determined estimated consumption and determining the actual end point of the energy storage system after operation of the electric vehicle on the given route. The method also includes comparing the actual end point to the target end point and determining the difference in state of charge for the energy storage system between the actual end point and the target end point. In addition, the method includes using the difference between the actual end point and the target end point to adjust the charge set points for the energy storage system. | 2014-08-07 |