03rd week of 2014 patent applcation highlights part 20 |
Patent application number | Title | Published |
20140015379 | Piezoelectric Multilayer Component and Method for Producing the Same - The piezoelectric multilayer component includes a piezo stack having an alternating sequence of piezoelectric ceramic layers and inner electrodes, and a passivation on an outer side. The passivation is produced from a piezoelectric ceramic material which is different from the material of the ceramic layers. In the production method, the passivation is polarized together with the ceramic layers. | 2014-01-16 |
20140015380 | PIEZOELECTRIC VIBRATION ELEMENT, PIEZOELECTRIC VIBRATOR, PIEZOELECTRIC OSCILLATOR, AND ELECTRONIC DEVICE - A piezoelectric vibration element includes: a piezoelectric substrate; excitation electrodes that are arranged so as to face each other on both principal faces of the piezoelectric substrate; drawn-out electrodes; and pads. The piezoelectric substrate includes an excitation portion that is located at the center and a peripheral portion that is thin-walled to be thinner than the thickness of the excitation portion and is disposed on a peripheral edge thereof. The pads have support areas that fix the piezoelectric substrate to a support member at positions of the piezoelectric substrate corresponding to corner portions. The excitation electrodes are formed over the excitation portion and a vibration area that is at least a part of the peripheral portion. | 2014-01-16 |
20140015381 | OSCILLATION PIECE, OSCILLATOR, ELECTRONIC DEVICE, ELECTRONIC APPARATUS, AND MOBILE OBJECT - An oscillation piece includes a first oscillation arm and a second oscillation arm, a first base that connects ends of the first oscillation arm and the second oscillation arm on one side to each other and a second base that connects ends of the first oscillation arm and the second oscillation arm on the other side to each other, and weight films provided on each of the first oscillation arm and the second oscillation arm. The drive electrodes are disposed in positions where the amount of distortion produced in the first oscillation arm and the second oscillation arm is maximized, and the weight films are disposed in positions where the amount of distortion produced in the first oscillation arm and the second oscillation arm is minimized. The oscillation frequency of the oscillation piece can be precisely adjusted by removing part of the weight films. | 2014-01-16 |
20140015382 | IN-WHEEL MOTOR AND IN-WHEEL DRIVING DEVICE - An in-wheel motor includes: a motor rotor installed inside a wheel of a vehicle; and a plurality of motor stators installed on the circumference of the motor rotor so as to be separated from each other, and forming magnetic fields to rotate the motor rotor. | 2014-01-16 |
20140015383 | FORWARD/REVERSE SWITCHING DEVICE FOR POWER TOOLS - A power tool includes a housing, an electric motor mounted in the housing, and a switching device for reversing rotation direction of the motor. The switching device includes an actuator slidably secured to the housing and movable between first and second positions. The actuator includes a magnet. A first ferromagnetic member is attached to a first housing section so as to be within range of attraction force of the magnet when the actuator is in the first position and a second ferromagnetic member is attached to a second housing section so as to be within range of attraction force of the magnet when the actuator is in the second position. A hall sensor is attached to the housing so as to be proximate the magnet as the actuator is moved between first and second positions. Proximity of the magnet and hall sensor reverses the direction of rotation of the motor. | 2014-01-16 |
20140015384 | ABSOLUTE ENCODER DEVICE AND MOTOR - The present invention provides an absolute encoder device, including: a permanent magnet including a first magnetic pattern (bipolar) and a second magnetic pattern (multipolar); a first magnetic sensor for detecting a magnetic field of the first magnetic pattern; a second magnetic sensor for detecting a magnetic field of the second magnetic pattern; and a signal processing circuit for calculating an absolute rotation angle of a rotation shaft based on output signals of the first and second magnetic sensors. The first and second magnetic sensors and the signal processing circuit are fixed to a single substrate. The first magnetic pattern is formed on a plane extending in a direction crossing an axial direction inside the permanent magnet, and the second magnetic pattern is formed on an outer peripheral surface of the permanent magnet. | 2014-01-16 |
20140015385 | HF GENERATOR - An HF generator has first and second solid-state switches. Each of the solid-state switches has first and second output connectors and is designed to switch a high-frequency electrical current between the first and second output connectors. Furthermore, the HF generator has a coaxial cable with first and second conductors. The first conductor successively has a first section and a second section in the longitudinal direction of the coaxial cable which are separated from one another by a first break point. The first output connector of the first solid-state switch is conductively connected to the second conductor, and the second output connector of the first solid-state switch is conductively connected to the first section. In addition, the first output connector of the second solid-state switch is conductively connected to the first section, and the second output connector of the second solid-state switch is conductively connected to the second section. | 2014-01-16 |
20140015386 | MOUNTING BRACKET FOR POWER SUPPLY UNIT - A mounting bracket includes a metal chassis and a metal cover. The metal chassis includes two opposite side plates, a top plate, a bottom plate, and a middle plate connected between middles of the top plate and the bottom plate, parallel to the side plates. Two receiving spaces are divided in the metal chassis by the middle plate, for receiving two power supply units. A first end of the metal cover is pivotably connected to a middle of a front end of the metal chassis. When the metal cover is rotated towards one of the receiving spaces, the metal cover covers the front end of the one of the receiving spaces, for shielding radiation and preventing air turbulence. | 2014-01-16 |
20140015387 | NON-HERMETIC SEALED MULTI-CHIP MODULE PACKAGE - A multi-chip module (MCM) package is provided and includes a substrate and a hat assembly. The substrate includes a surface on which chips of the MCM are re-workable. The hat assembly is configured to be non-hermetically sealed to the substrate. The hat assembly and the substrate are configured for tension-type disassembly in a dimension oriented substantially normally with respect to a plane of the substrate surface. | 2014-01-16 |
20140015388 | FLIPPABLE DOUBLE SIDED DESKTOP EASELS AND METHOD OF MANUFACTURE THEREOF - A flippable double-sided desktop easel which includes at least two interconnected double-sided easel panels, the panels being operable for interflipping therebetween, the interflipping being operable to alternatively expose alternating ones of sides of the panels, the interconnected double-sided easel panels being arranged for generally upright mounting on a horizontal surface. | 2014-01-16 |
20140015389 | Apparatus and Control for Modular Manufacturing System - A modular manufacturing system uses a universal base and power infrastructure to receive a variety of tooling plates. This is accomplished by the creation of a modular service interface for simultaneous connection of electrical and fluid power from the base to the tooling plate. In addition, a sensing system is used to automatically identify the specific tool set, and to distinguish between a single plate tool set and a double plate tool set. Individual tool sets are located with certainty through the use of physical placement guide rollers, stops, and friction fit. A PLC manages the power, tool set identification and user interface. | 2014-01-16 |
20140015390 | DRAWER PULL-OUT GUIDE - The invention relates to a drawer pull-out guide ( | 2014-01-16 |
20140015391 | DRAWER FRAME HAVING A TILT ADJUSTMENT - The invention relates to a drawer frame, comprising an adjusting device for raising and lowering the drawer frame relative to a drawer pull-out guide, wherein the adjusting device, which is arranged substantially inside the drawer frame, has an actuating element, which is accessible from the drawer interior, in the region of a lateral inner surface of the drawer frame facing the drawer interior. | 2014-01-16 |
20140015392 | HOOKING DEVICE FOR FIXING A DRAWER TO A GUIDE - The hooking device ( | 2014-01-16 |
20140015393 | CONNECTION ASSEMBLY FOR A BASE AND A CABINET ASSEMBLY OF AN ICE MAKER - A connection assembly is disclosed for an ice maker that includes a base having a rail and a cabinet assembly having a glide. The glide slides onto the rail to removably connect the base and the cabinet assembly while aligning the cabinet assembly vertically and horizontally relative to the base. Preferably, the rail and glide have complementary geometries wherein the base and rail fit together such that the complementary geometries limit the relative vertical and horizontal movement of the rail and the glide to each other. In alternative configurations, the base may have a glide and the cabinet may have a rail. The connection assembly may also include a stop limiting the relative linear movement between the rail and the glide, further assuring proper alignment of the cabinet and the base. The connection assembly may also include a locking mechanism limiting relative linear movement of the base and the cabinet. | 2014-01-16 |
20140015394 | REFRIGERATOR AND MANUFACTURING METHOD THEREOF - A refrigerator and a manufacturing method thereof including processes of separately manufacturing partitions dividing a storage space into a plurality of storage chambers from a main body including an inner casing and an outer casing, coupling the partitions to an inner surface of the inner casing, filling a space between the inner casing and the partitions with an insulator, and filling the partitions with the insulator by filling a space between the inner casing and the outer casing with the insulator. Since the insulator uniformly fills the partitions dividing the storage space into the plurality of storage chambers, the partitions may possess improved insulating qualities. | 2014-01-16 |
20140015395 | REFRIGERATOR WITH PLATFORM FOR IMPROVED FOAM DISCHARGE - A refrigerator includes a cabinet composed of a top, bottom, right, left, and back wall forming an interior space. There is at least one opening or pour hole in a cabinet wall. There is an insulating panel positioned in the interior space of the cabinet adjacent to at least one wall. There is a platform or bridge that extends from the at least one pour hole to the at least one insulating panel, such that the platform is at least as thick at the top edge as the adjacent portion of the at least one insulating panel. There is foam discharged through the at least one pour hole, the foam passing adjacent to the platform, and adjacent to the at least one insulating panel. | 2014-01-16 |
20140015396 | GAS-DISCHARGE LAMP - The invention describes a gas-discharge lamp ( | 2014-01-16 |
20140015397 | LIQUID-COOLED LED LAMP - A liquid-cooled LED light, including a lamp head, a lamp core, and a lamp shell. The lamp shell covers the periphery of the lamp core. The cavity of the lamp shell is filled with silicone oil for radiating heat. One end of the lamp core is immersed in the silicone oil; at the other end of the lamp core, the lamp shell is connected hermetically to the lamp head. | 2014-01-16 |
20140015398 | SPARK PLUG AND PRODUCTION METHOD THEREFOR - A technique of reducing occurrence of multiple discharge in a spark plug provided. The spark plug has a main ground electrode and three auxiliary ground electrodes. The position at which first auxiliary ground electrode is joined to a metallic shell is located opposite the position at which main ground electrode is joined to the metallic shell, with respect to a center electrode. The positions at which second and third auxiliary ground electrodes are joined to the metallic shell are located opposite to each other with respect to the center electrode. When the width of first auxiliary ground electrode is represented by W, the shortest distance between second auxiliary ground electrode and third auxiliary ground electrode is represented by T, and a distance which is a component of the shortest distance T in a direction orthogonal to first auxiliary ground electrode is represented by Tp, a relation W≧Tp is satisfied. | 2014-01-16 |
20140015399 | ELECTRODE MATERIAL FOR A SPARK PLUG - An electrode material for use with spark plugs and other ignition devices. The electrode material is a two-phase composite material that includes a matrix component and a dispersed component embedded in the matrix component. In a preferred embodiment, the matrix component is a precious-metal based material and the dispersed component includes a material that exhibits a high melting point and a low work function such as, for example, carbides, nitrides, and/or intermetallics. A process for forming the electrode material into a spark plug electrode is also provided. | 2014-01-16 |
20140015400 | Phosphor and light emitting devices comprising same - A red phosphor is provided. Also provided is a lighting apparatus containing a red phosphor. | 2014-01-16 |
20140015401 | FLAT DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A flat display device includes a substrate, a light-emitting diode on the substrate, and a sealing layer on the light-emitting diode, the sealing layer including at least one sealing unit that includes an organic film, an oxygen-free buffer layer on the organic film, and an inorganic film on the oxygen-free buffer layer. | 2014-01-16 |
20140015402 | FLEXIBLE DISPLAY DEVICE - A flexible display device includes a flexible display panel, a plurality of supports on a first surface of the flexible display panel, the plurality of supports being spaced apart from each other, and an actuator on the first surface of the flexible display panel, the actuator being between the supports. The actuator includes an electroactive polymer layer, and a first electrode layer and a second electrode layer that are respectively arranged on an upper surface and a lower surface of the electroactive polymer layer, and the actuator having a property such that when a voltage is applied to the first electrode layer and the second electrode layer, an area of the electroactive polymer layer is changed. | 2014-01-16 |
20140015403 | CERAMIC DISCHARGE METAL HALIDE (CDM) LAMP AND METHOD OFMANUFACTURE THEREOF - A high-power ceramic discharge metal halide (CDM) lamp with a shroud-type containment assembly is disclosed. The lamp includes: a first shroud ( | 2014-01-16 |
20140015404 | SHORT ARC TYPE MERCURY LAMP - A short arc type mercury lamp structure has Hg and a rare gas which are enclosed inside a light-emitting tube. Kr is enclosed as the rare gas. It is possible to realize the initial intensity of radiation at the same level as in the case in which Ar is enclosed and prevent a sudden decrease in the intensity of radiation when the lamp is lighted for a long time. The longevity of the lamp is greatly increased than that of a lamp in which Ar is enclosed. The anode satisfies the formula: | 2014-01-16 |
20140015405 | LIGHT EMITTING DIODE MODULE - The light emitting diode module is disclosed. The light emitting diode module includes a ceramic substrate, a circuit layer, at least an illuminant element and a driving circuit element. The ceramic substrate has a recess formed on and upper surface thereof. The circuit layer is placed on the upper surface of the ceramic substrate. The driving circuit element is disposed on the upper surface of the ceramic substrate and electrically connected to the circuit layer. | 2014-01-16 |
20140015406 | VEHICLE LIGHT CONTROL DEVICE - A vehicle light control device mounted on a vehicle to control lighting of a light of the vehicle based on illuminance around the vehicle, has an infrared sensor that detects an infrared ray around the vehicle, an infrared illuminance detector that detects infrared illuminance from an output of the infrared sensor, a visible-light sensor that detects visible light around the vehicle, a visible-light illuminance detector that detects visible-light illuminance from an output of the visible-light sensor, a storage in which a first lighting threshold is stored, and a controller that controls the lighting of the light based on the infrared illuminance detected by the infrared illuminance detector, the visible-light illuminance detected by the visible-light illuminance detector, and the first lighting threshold stored in the storage. | 2014-01-16 |
20140015407 | DEVICE AND METHOD FOR COMMUNICATION BETWEEN AN ELECTRONIC MODULE AND A DETECTION SENSOR IN THE PRESENCE OF A LIGHT SOURCE - Method for communication between an electronic module and a sensor having a light source and being supplied by supply line, the electronic module measuring the modulations of the intensity of the current in the line. The sensor drives a gradual turning on/turning off of the light source by a first modulation of the intensity of the current such that: the light source is turned off, respectively turned on, when the intensity of the current is in a low, respectively high, state, and the light source illuminates, respectively turns off, when the duty ratio of the intensity of the current varies from the high state to the low state and vice versa. During detection, the sensor dispatches a second modulation through the light source, however if the light source is turning on (or off), this is interrupted and the intensity of current is forced to the high (or low) state. | 2014-01-16 |
20140015408 | DEVICE AND METHOD FOR COMMUNICATION BETWEEN AN ELECTRONIC MODULE AND A DETECTION SENSOR COMPRISING A LIGHT SOURCE - Method for communication between an electronic module and a sensor having a first branch, including a light source LED and a first switch, and a second branch including a second switch, supplied by a supply line, the module measuring modulations of the intensity of the current of the line. When the light source is turned on or in the process of turning on/turning off, the sensor:
| 2014-01-16 |
20140015409 | VEHICLE LIGHTING CONTROL SYSTEM - A lighting control system is provided with a blinker switch, a hazard switch, and a control circuit which controls the flashing of blinker lamps. The CPU of the control circuit, after detecting an input signal from one switch input port among a left side and a right side switch input port, determines that the hazard switch is switched on when an input signal from the other of the switch input ports is detected within a predetermined time, and determines that the blinker switch is switched on when no input signal from the other of the switch input ports is detected. | 2014-01-16 |
20140015410 | VEHICLE LAMP - A vehicle lamp includes a light source (LED) | 2014-01-16 |
20140015411 | method and control device for switching on the high beam headlights of a vehicle - A method for switching on a high-beam headlight of a vehicle includes: a step of receiving high-beam information by way of an interface, the high-beam information indicating a possibility of a glare-free operation of the high-beam headlight; a step of determining a traveled distance of the vehicle in response to receiving the high-beam information, and a step of supplying switch-on information for activating the high-beam headlight if the traveled distance after receiving the high-beam information is greater than a predefined minimum distance. | 2014-01-16 |
20140015412 | LOAD DRIVING APPARATUS RELATED TO LIGHT-EMITTING DIODE LAMP AND METHOD THEREOF - A load driving apparatus related to an LED lamp and a method thereof are provided. The load driving apparatus includes a PWM-based power converter and a determination circuit. The PWM-based power converter is coupled to the LED lamp, and is configured to: generate a DC operation voltage of the LED lamp; and control a current flowing through the LED lamp in response to a dimming signal, so as to adjust a brightness of the LED lamp. The determination circuit is coupled to the PWM-based power converter and the LED lamp, and is configured to: receive the DC operation voltage; and stop conducting the DC operation voltage to the LED lamp in case that a lamp-off condition of the LED lamp is satisfied. | 2014-01-16 |
20140015413 | DRIVING METHOD OF LIGHT SOURCE APPARATUS - A driving method of a light source apparatus includes causing a primary light source to emit checking light. The checking light has light intensity sufficient to check a state of the light source apparatus and unharmful to the human body even when the checking light leaks. This emission is based on an output signal from a photodetector having detected a light radiated from a light conversion unit. The method further includes checking a state of the light source apparatus. The checking the state of the light source apparatus is based on an output signal from the photodetector having detected light radiated from the light conversion unit and entering the photodetector based on the checking light. | 2014-01-16 |
20140015414 | SOLID STATE LIGHTING CIRCUIT AND CONTROLS - In some embodiments, a solid state lighting circuit may include one or more of the following features: (a) a plurality of emitters operably connected to a power supply (b) the power supply operably coupled in series with a current limiting device, where one or more of the emitters is bypassed with a switched circuit, and (c) at least one MOSFET switch operably coupled to the voltage divider circuit. | 2014-01-16 |
20140015415 | LIGHTING CONTROL APPARATUS, LIGHTING CONTROL METHOD, AND LIGHTING CONTROL SYSTEM - Disclosed are a lighting control apparatus, a lighting control method, and a lighting control system. The lighting control apparatus makes communication with lighting devices, registers at least one of the lighting devices according to received signal strengths of the lighting devices, and controls the registered lighting device. The lighting control apparatus easily registers and controls the lighting devices. | 2014-01-16 |
20140015416 | LAMP DRIVING MODULE - A lamp driving module for a gas-discharge lamp includes a lamp ballast module, and a lamp power control module coupled to the lamp ballast module. The lamp power control module is configured to drive the lamp in a DC mode during a run-up state and in an AC mode when not in the run-up state. The lamp power control module is configured to heat the amalgam in the lamp more quickly, accelerate migration of the released mercury vapor throughout the lamp discharge tube, and allow the lamp to get brighter faster. | 2014-01-16 |
20140015417 | LIGHTING CONTROL SYSTEM - In an embodiment, a lighting control system includes a plurality of lighting apparatuses and a central control device. In an embodiment, the central control device controls lighting states of the plurality of lighting apparatuses, based on a first illumination which is an illumination of an irradiated surface irradiated by the plurality of lighting apparatuses, and a second illumination which is an illumination at a certain measurement point in a lighting space irradiated by light sources of the plurality of lighting apparatuses and is formed by a reflected light of light emitted by the lighting apparatuses. | 2014-01-16 |
20140015418 | Device and Method for Illumination Control of a Plurality of Light Sources - The invention is based on the idea that a lighting system can utilize its sensing and control functionalities to offer dynamic load management (e.g. demand response) services in an electrical grid. The present invention optimizes dimming levels of lighting sources of a lighting system by determining a solution for an optimization problem directed to determining new dimming levels such that power consumption of the lighting devices is reduced. During the determining the solution for the optimization problem, the present invention may take into account specific guarantees on illumination rendering, acceptable to different users, and differing illumination requirements in different spaces or rooms. By the lighting control of the present invention, predictable and effective load reductions may be achieved. | 2014-01-16 |
20140015419 | Illumination Device and Fixture - Technologies are described herein for an illumination device and a corresponding fixture device. The illumination device includes a luminary module for the emission of light and an identification circuit containing identifying data, while the fixture device includes a driver module for supplying power to the illumination device and a controller module. When the illumination device is connected to the fixture device, the controller module communicates with the identification circuit of the illumination device to retrieve the identifying data and causes the driver module to supply the appropriate power to the luminary module of the illumination device. | 2014-01-16 |
20140015420 | CIRCUIT FOR EXPANDING THE DIMMING RANGE OF AN LED LAMP - A circuit and method for controlling one or more light emitting diodes (LEDs) includes one or more LEDs connected to the emitter a transistor and controlling the brightness of the LEDs over a large range based on a voltage range at a base of the transistor controlled by an automatic adjusting mechanism. | 2014-01-16 |
20140015421 | LED MODULE AND ILLUMINATION DEVICE HAVING A SENSOR SUITABLE FOR DOWNSIZING - An LED module includes a light-emitting unit composed of a plurality of LEDs connected in series to one another, a sensor unit, a power interrupt circuit inserted into a power supply path through which the light-emitting unit is supplied with power from an external power source, and a control circuit that controls the power interrupt circuit according to output of the sensor unit. The LED module further includes a secondary battery and a voltage supply circuit. The voltage supply circuit supplies the control circuit with voltage equivalent to voltage drop between the ends of a group of LEDs included in the plurality of LEDs that constitute the light-emitting unit while the external power source is supplying power to the light-emitting unit, and supplies the control circuit with voltage output from the secondary battery while power interrupt circuit is interrupting the power from the external power source to the light-emitting unit. | 2014-01-16 |
20140015422 | PHOTOSWITCH - A photoswitch includes a DC power supply, a luminance controlling circuit and a lightening apparatus. The luminance controlling circuit includes a relay RL | 2014-01-16 |
20140015423 | LIGHTING DEVICE - A lighting device has one or more light sources; a primary input power connection; and electronic circuitry for controlling delivery of power from the primary input power connection to the one or more light sources. The electronic circuitry determines an indication of an external electrical loading on a primary power supply network coupled, in use, with the primary input power connection the circuitry varies the power drawn from the primary input power connection in dependence upon the determined indication of the external electrical loading on the primary power supply network. In this way, during times of high demand on the primary supply network, the lighting device can reduce the amount of power drawn from the primary supply. | 2014-01-16 |
20140015424 | MULTI-STRING LED DRIVE SYSTEM - A multi-string LED drive system for multiple LED strings powered by a common line voltage. A plurality of current control circuits are connected in series with respective LED strings, each of which includes a transistor which causes a desired LED string current to be conducted when a sufficient voltage is applied to the transistor's gate. A “maximum” circuit receives each of the gate voltages at respective inputs and outputs a voltage which is proportional to the greatest of the received voltages. A line regulator circuit receives the output of the maximum circuit and a signal which represents a target gate voltage at respective inputs and generates the common line voltage such that the highest of the gate voltages is approximately equal to the target gate voltage, such that system power efficiency is optimized in cases of imbalance between LED string voltage drops and/or sink device characteristics. | 2014-01-16 |
20140015425 | LINE VOLTAGE CONTROL CIRCUIT FOR A MULTI-STRING LED DRIVE SYSTEM - A line voltage control circuit for use with a multi-string LED drive system which provides a common line voltage for multiple LED strings that are connected to respective current sink circuits at respective junctions. An error amplifier receives the minimum junction voltage and a reference ‘desired junction voltage’ at respective inputs, and a voltage regulator outputs the line voltage in response to a voltage applied to a feedback input. A comparator toggles an output when the maximum junction voltage (V | 2014-01-16 |
20140015426 | LED DRIVE SYSTEM FOR CONTROLLING AN OFF-CHIP POWER SUPPLY - A LED drive system for controlling an off-chip power supply enables the power supply function to be located ‘off-chip’—i.e., on an IC which is separate from the IC containing the other LED drive system components. The off-chip supply provides a common line voltage for LED strings connected in series with respective current sink circuits at respective junctions, in response to a signal applied to a control input. The system includes a ‘minimum’ circuit which outputs the least of the voltages at the junctions, and an I/O pin which receives a signal that varies with the output of the minimum circuit. When the external supply's control input is coupled to the system's I/O pin, the present system controls the output of the external power supply as needed to provide a desired common line voltage. | 2014-01-16 |
20140015427 | MULTI-STRING LED DRIVE SYSTEM - A drive system for multiple LED strings powered by a common line voltage. Current control circuits are connected in series with respective LED strings; each current control circuit includes a drive transistor (typically a FET) which causes a desired LED string current to be conducted. In one embodiment, the current conducted by a selected one of the LED strings is controlled by the line voltage regulation loop, while the currents conducted by the remaining LED strings are controlled by respective local current loops, thus avoiding conflicts between the local current and line voltage regulation loops. The LED string to be current regulated by the line voltage regulation loop can be determined by a variety of criteria, such as the current control circuit having the maximum FET gate voltage, the minimum FET source voltage, the minimum FET drain voltage, the maximum FET gate-source voltage, or the minimum FET drain-source voltage. | 2014-01-16 |
20140015428 | LED LIGHT SOURCE - LED light source comprising a string of LED loads (LED | 2014-01-16 |
20140015429 | SYSTEMS AND METHODS FOR CURRENT MATCHING OF LED STRINGS - System and method are provided for regulating a string current flowing through a string of one or more light emitting diodes. A system controller includes a first controller terminal, a second controller terminal and a third controller terminal. The first controller terminal is coupled to a base terminal of a bipolar junction transistor, the bipolar junction transistor further including an emitter terminal and a collector terminal, the collector terminal being connected to the string of one or more light emitting diodes. The second controller terminal is coupled to the emitter terminal of the bipolar junction transistor and to a first resistor terminal of a resistor associated with a resistance. The third controller terminal is coupled to a second resistor terminal of the resistor. In addition, the system controller is configured to receive a reference voltage, receive an emitter voltage, and output a base current. | 2014-01-16 |
20140015430 | LED LIGHT SOURCE - A series arrangement of LED loads (LP | 2014-01-16 |
20140015431 | ILLUMINATION APPARATUS AND METHOD - An illumination apparatus is described which comprises a solid state light emitting device and means for powering the light emitting device. The powering means is adapted to provide a series of pulses, wherein each pulse comprises a substantially square waveform followed by a decaying oscillating waveform. | 2014-01-16 |
20140015432 | POWER SUPPLY, SOLID-STATE LIGHT-EMITTING ELEMENT LIGHTING DEVICE, AND LUMINAIRE - According to one embodiment, a power supply device includes a full-wave rectifier, a power converting circuit, and a partial smoothing circuit. The power converting circuit converts an output of the full-wave rectifier into a direct-current voltage according to a switching action of a switching element. The partial smoothing circuit includes, in series, a capacitor and a first diode connected in polarity opposite to output polarity of the full-wave rectifier. The partial smoothing circuit is provided on an output side of the full-wave rectifier in parallel to the power converting circuit. In the partial smoothing circuit, the capacitor is charged according to the switching action of the switching element of the power converting circuit. The partial smoothing circuit supplies charged electric of the capacitor to the power converting circuit via the first diode in a trough portion of an output voltage of the full-wave rectifier. | 2014-01-16 |
20140015433 | DRIVING DEVICE - A driving device comprises a first transistor (B | 2014-01-16 |
20140015434 | LAMP IGNITION SYSTEM AND LAMP IGNITION METHOD - A lamp ignition system and a lamp ignition method are disclosed, where the lamp ignition system includes a converter, a transformer and a driving circuit. The converter converts an input voltage into an operating voltage for a gas discharge lamp. The transformer has a primary winding and a secondary winding, and the secondary winding is connected to the gas discharge lamp in series. The driving circuit is electrically connected to the primary winding for driving the transformer, so that the secondary winding of the transformer can output a high-frequency voltage to ignite the gas discharge lamp. | 2014-01-16 |
20140015435 | LOW-TEMPERATURE LED LIGHTING AND POWER SUPPLY DEVICE - A low-temperature LED lighting and power supply device has a low power-consuming power supply control module and an LED lighting module electrically connected therewith. The LED lighting module is composed of at least one light source driver and an LED light source. The low power-consuming power supply control module at least has a surge suppression unit, a voltage-dividing-limiting unit, a current-limiting unit, and a steady voltage filtering unit. Accordingly, the present invention allows LED lighting equipment to be applied in a wider power supply range and operated under a low-temperature and low power-consuming state so as to meet economic and practical demands and environmental protection. | 2014-01-16 |
20140015436 | DIMMER CONTROL OF ANGULAR DISTRIBUTION OF LIGHT - A method for controlling an angular distribution of a light-beam emitted by a light-output device ( | 2014-01-16 |
20140015437 | METHOD AND CIRCUIT FOR DRIVING LEDS WITH A PULSED CURRENT - A method and circuit with a pulsed current sink for driving one or more than one light-emitting diodes with a pulsed current. | 2014-01-16 |
20140015438 | TUNABLE LIGHT SYSTEM AND ASSOCIATED METHODS - Methods of tuning a luminaire having a first light source, a second light source, and a third light source, wherein each light source produces a different color of light including receiving a selected warmth, include the step of determining whether the light emitted by the first light source matches the amount of light needed from the first light source to match the selected warmth. It may be determined whether the first and second light sources are emitting sufficient light, and each may be adjusted to emit light having the selected warmth. | 2014-01-16 |
20140015439 | TROFFER LIGHTING CONTROL SYSTEM - A lighting control system for a troffer LED lighting system is provided with a power supply having at least three pairs of wires extending therefrom. The first pair of wires is in connection with a power source. The second pair of wires is connected to a socket mounted to the troffer housing. The third pair of wires is connected to at least one LED. A socket resistor is mounted to socket to set a baseline brightness for the troffer LED lighting system, and an efficiency plug is provided for insertion into the socket. The efficiency plug includes an internal resistance to change the brightness of the troffer LED lighting system to a predetermined level. | 2014-01-16 |
20140015440 | CONSTANT CURRENT CONTROL CIRCUIT - A constant current control circuit includes a current source output module and at least two output circuits. Each of the output circuits includes an automatic constant current regulating module, a power transistor drive and control module electrically coupled to automatic constant current regulating module, and a load module formed of one or more LED devices and electrically coupled to a power transistor drive and control module. The constant current control circuit in operation tracks changes in current of each output circuit and regulates the currents of all the output circuits accordingly. | 2014-01-16 |
20140015441 | DRIVER DEVICE AND DRIVING METHOD FOR DRIVING A LOAD, IN PARTICULAR AN LED ASSEMBLY - Driver device ( | 2014-01-16 |
20140015442 | LIGHTING DEVICE - A lighting device is provided with an illumination unit including two or less LED light sources. The illumination unit uses the two or less LED light sources to emit light of a short wavelength band and light of a long wavelength band. An output varying unit functions to vary an output of at least the long wavelength band light. When the output varying unit receives a varying signal, the output varying unit functions to decrease the output of at least the long wavelength band light. | 2014-01-16 |
20140015443 | LIGHT EMITTING ELEMENT LIGHTING DEVICE AND LIGHTING FIXTURE USING SAME - The light emitting element lighting device in accordance with the present invention, includes: a light emitting unit including a light emitting element; and a power supply circuit configured to supply a supply voltage to the light emitting unit. The power supply circuit is configured to increase the supply voltage from a first voltage lower than a lighting start voltage of the light emitting element to a second voltage higher than the lighting start voltage to light up the light emitting unit. The power supply circuit is configured to, in a process of increasing the supply voltage from the first voltage to the second voltage, decrease a rate of increase in the supply voltage as the supply voltage gets closer to the second voltage. | 2014-01-16 |
20140015444 | LIGHTING DEVICE - A lighting device includes a first light source having a first S/P ratio, a second light source having a second S/P ratio that is higher than the first S/P ratio, and a controller configured to performing dimming control of light output from the first and second light sources. The controller performs the dimming control separately on the first and second light sources at least under a snow covered condition. | 2014-01-16 |
20140015445 | Device and method for adjusting electricity consumption of a plurality of lighting devices of a lighting system - The invention is based on the idea that control of power consumption in a system comprising power consuming devices like lighting devices, for example, can be performed by dividing the power consuming devices of the system into a plurality of groups and by taking into account power consumption or load shedding or restoration capability for each group. Further, the invention implements an auction mechanism for adjusting power consumption or load in the lighting system such that an effective, fast, user requirements considering and lighting device functions and characteristics considering adjusting is achieved. | 2014-01-16 |
20140015446 | METHOD AND APPARATUS FOR CURRENT DERATING WITH INTEGRATED TEMPERATURE SENSING - A method and apparatus for derating current and for derating current for a camera flash. The method comprises monitoring a local junction temperature of a module. The local junction temperature is converted into a local junction current. The local junction current is then compared with a reference current, which is independent of temperature. After the current comparison and subtraction is made, a derate control current is obtained to generate the LED reference current. After the temperature crosses the temperature threshold, the derate control current is derated. Both the temperature threshold and current derate slope are programmable and precisely controlled. The LED output current is regulated and proportional to the LED reference current. If the local junction temperature is greater than the temperature threshold, the LED output current is derated at the moment of the camera flash to avoid thermal overload. | 2014-01-16 |
20140015447 | THERMAL DE-RATING POWER SUPPLY FOR LED LOADS - Embodiments disclosed herein describe the use of a power supply to provide power to an LED load. The power supply provides a present output current to the LED, and receives a temperature signal representing the operating temperature of the LED. A target output current is determined, for instance based on the temperature signal. An output current rate of change is determined, and the power supply adjusts the output current to the LED at the determined rate of change until the output current is substantially equal to the target current. | 2014-01-16 |
20140015448 | ELECTRONIC DEVICE HAVING A MOTION DETECTOR - A computer is provided that includes a lid having a display and a motion detector to detect motion or movement of a user. | 2014-01-16 |
20140015449 | ELECTRIC CONTROL AND SUPPLY SYSTEM - A system supplies power from an AC voltage source to an electrical device. The system includes a plurality of AC/DC voltage converters having inputs connected to the AC voltage source and outputs connected to an electrical conductor. The system also includes a plurality of DC voltage converters, each having an input side connected to the electrical conductor and an output side connected to the electrical device. A converted DC or AC voltage is supplied to the electrical device. The system also includes a data coupling device coupled to the electrical conductor. The data coupling device allows communication with the electrical device via the electrical conductor using signals associated with a first frequency range while power is supplied to the electrical device via the electrical conductor. The system further includes clocking frequencies associated with one or more of the AC/DC converters being phase shifted with respect to each other to shift clocking noise from the first frequency range to a second frequency range and clocking frequencies associated with one or more of the DC voltage converters being phase shifted with respect to each other to shift clocking noise from the first frequency range to the second frequency range. | 2014-01-16 |
20140015450 | Method and System for Heating Traction Battery of Electric Vehicle - An electric vehicle such as a hybrid electric vehicle (HEV), a plug-in hybrid electric vehicle (PHEV), and a battery-only electric vehicle (BEV) includes a traction battery. A torque command is generated for a motor such that a traction battery electrically connected therewith outputs a discharge current having an alternating current (AC) component to cause a temperature of the traction battery to increase. | 2014-01-16 |
20140015451 | POWER TOOL SYSTEM AND POWER SUPPLY DEVICE - A power tool system includes: a power tool including an AC motor; a portable battery pack; and a power supply device that converts a DC power supplied from the portable battery pack into an AC power to supply the AC power to the AC motor. | 2014-01-16 |
20140015452 | INVERTER DEVICE - An inverter device includes a substrate, upper arm elements, lower arm elements, positive and negative input electrodes, and an output electrode. The upper arm elements serve as an upper switching element and are arranged along a first direction. The lower arm elements serve as a lower arm switching element and are arranged along the first direction. At least one of bus bars of the positive and negative input electrodes and the output electrode extends parallel to the first direction. At least one of the bus bars of the positive and negative input electrodes and the output electrode has a length in the longitudinal direction that is greater than a width between two ends of the upper arm elements and the lower arm elements in the first direction. | 2014-01-16 |
20140015453 | Conductor Foil for a Lithium-Ion Cell, Lithium-Ion Accumulator and Motor Vehicle Comprising a Lithium-Ion Accumulator - A conductor foil for a negative electrode of a lithium-ion accumulator comprises at least one lithium-ion cell. The conductor foil comprises an aluminum foil both sides of which are covered by a metal layer consisting of copper or nickel. The disclosure further relates to a lithium-ion accumulator and to a motor vehicle comprising a lithium-ion accumulator. | 2014-01-16 |
20140015454 | BATTERY SYSTEM, ELECTRIC-POWERED VEHICLE, MOVABLE EQUIPMENT, POWER STORAGE DEVICE, AND POWER SOURCE APPARATUS - The signal output circuit of the highest rank state detection section outputs an abnormal signal that is generated by the processing device when an abnormality is detected by the abnormality detection section. When no abnormality is detected, a normal signal is generated by the processing device and output as the detection signal. In each state detection section other than that of the highest rank, the signal output circuit outputs an abnormal signal generated by the processing device when an abnormality is detected by the abnormality detection section, and outputs the detection signal input from a higher rank state detection section when no abnormality is detected. | 2014-01-16 |
20140015455 | ELECTRIC VEHICLE CONTROL DEVICE - Provided is an electric vehicle control device in which a power supply device has a simple structure. A BMU power supply device ( | 2014-01-16 |
20140015456 | VEHICLE POWER SUPPLY DEVICE - In order to prevent elements from being damaged by electrical energy when a regenerative braking force is generated, an electric motor ( | 2014-01-16 |
20140015457 | SYSTEM AND METHOD FOR CALIBRATING OFFSET OF MOTOR RESOLVER - Provided is a system and method for calibrating an offset of a resolver in a motor of a vehicle. More specifically, a current is applied to the −d-axis of the motor, the Vq, Vd, Iq, and Id of the motor is measured and a power input to the motor is calculated by a controller, and when the input power is not within a predetermined range, the controller adjusts the offset of the resolver to a positive or negative value accordingly. | 2014-01-16 |
20140015458 | Method and System for Controlling a Motor - A method and system for controlling a motor is provided. In particular, various embodiments of the present disclosure describe a method and system for controlling a spindle motor in a hard disk drive (HDD) A method of controlling a motor is provided, the motor including a 3-phase synchronous motor with three terminals of an electromagnetic winding configuration. The method includes providing an input voltage between two of the terminals and measures a resultant silent terminal voltage at the third terminal, which is thereafter used in determining a rotor position. A corresponding system for controlling a motor is further provided. | 2014-01-16 |
20140015459 | Switched Reluctance Motor Torque Estimation - A drive system has a switched reluctance motor (SR motor) and a control system configured to determine an estimated total torque of SR motor as a function of the phase voltages and phase currents of the phases of the SR motor. | 2014-01-16 |
20140015460 | SYSTEM AND METHOD FOR CONTROLLING A MULTIPHASE ELECTRIC MOTOR WHILE TAKING CURRENT OSCILLATIONS INTO ACCOUNT - A system and method for controlling a multiphase electric motor fitted to a motor vehicle. The motor includes a rotor powered by a voltage chopper or a rotor with permanent magnets and a stator powered by a multiphase voltage inverter. The multiphase voltage inverter is powered via a high-voltage DC bus. The control system receives as an input a torque setpoint of an electric-vehicle computer. The system also includes a system for the dynamic control of the torque setpoint to determine a dynamic correction of torque ripple and a device for determining setpoints for powering the electric motor as a function of the torque setpoint and of the dynamic correction of torque ripple. | 2014-01-16 |
20140015461 | INVERTER - An inverter includes a warm-up control section and a switching control section. In a state in which an electric motor is not operating, the warm-up control section controls switching elements of an inverter circuit to perform warm-up control, in which direct currents are supplied to the coils of the respective phases of the electric motor, when the temperature of the capacitor is lower than a prescribed temperature. When a warm-up control is switched to a normal operation control, the switching control section sets initial phases of alternating currents such that the relationship between the values of the alternating currents supplied to the coils of the electric motor in the normal operation control matches with the relationship between the values of the direct currents that have been supplied to the corresponding coils of the electric motor in the warm-up control. | 2014-01-16 |
20140015462 | METHOD OF DETECTING DISCONNECTION STATE OF POWER CABLE IN INVERTER SYSTEM - Disclosed is a method of detecting the disconnection state of a power cable in an inverter system. The method includes detecting a battery voltage, detecting a DC-link voltage, detecting the disconnection state of the power cable based on a difference value between the detected battery voltage and the DC-link voltage, and stopping driving of a motor if the power cable is detected as being disconnected. | 2014-01-16 |
20140015463 | METHOD FOR OPERATING AN ELECTRIC MACHINE IN A SHORT-CIRCUIT MODE - A method for operating an electric machine ( | 2014-01-16 |
20140015464 | ASSYMETRICAL POWER INVERTER - An exemplary inverter includes first, second and third legs connected in parallel to a line rail and a neutral rail. Each leg includes a first switch, a second switch, and a node between the first and second switches. The first leg further includes a voltage boosting section operable to selectively increase and decrease the voltage potential of the node of the first leg. The voltage boosting section may include a capacitor in parallel with the first and second switches. The first leg may further include a third switch in series with the voltage boosting section and between the voltage boosting section and the line rail, and a fourth switch in series with the voltage boosting section and between the voltage boosting section and the neutral rail. | 2014-01-16 |
20140015465 | VOLTAGE INCREASING CONTROL CIRCUIT AND POWER TOOL - A voltage increasing control circuit is connected to a power supply to regulate power supplied to a load. The voltage increasing control circuit includes a voltage increasing unit configured to increase voltage that is supplied from the power supply, and supply the voltage to the load. A power estimation unit determines whether or not to increase the power supplied to the load. A voltage control unit controls the voltage increasing unit. When the power estimation unit determines to increase the power supplied to the load, the voltage control unit controls the voltage increasing unit to increase the power supplied to the load. | 2014-01-16 |
20140015466 | Integrated Drive Management And Configuration Using Instantiated Objects - A programming tool provides an interface between an industrial controller and a motor drive that allows the logic development tool used to program the industrial controller to be used to configure the motor drive and its supported components directly. This allows a programmer to configure the topology for the motor drive and provide configuration data that can be verified directly from within the controller programming software rather than requiring separate programming and diagnostic tools. | 2014-01-16 |
20140015467 | MOTOR CONTROL APPARATUS - A motor control apparatus includes a motor that rotates a controlled object, an encoder that outputs a pulse signal in synchronization with a rotation of the motor, and a control section that performs a feedback control so as to rotate the motor to the target rotational position. The control section includes a stopping and holding control portion. The stopping and holding control portion performs a stopping and holding process in which the stopping and holding control portion supplies electric current to the motor so as to stop and hold the motor for a current-supply holding time. The stopping and holding control portion sets the current-supply holding time on the basis of a rotation speed of the motor just before the stopping and holding process. | 2014-01-16 |
20140015468 | METHODS, SYSTEMS AND APPARATUS FOR ADJUSTING CURRENT AND/OR TORQUE COMMANDS USED TO CONTROL OPERATION OF AN ASYNCHRONOUS MACHINE - Embodiments of the present disclosure relate to methods, systems and apparatus for adjusting current and/or torque commands used to control operation of an asynchronous machine based on rotor flux of the asynchronous machine. | 2014-01-16 |
20140015469 | Battery Management System For A Distributed Energy Storage System, and Applications Thereof - The present invention provides a distributed energy storage system, and applications thereof. In an embodiment, the distributed energy storage system includes power units, wherein each power unit has a multi-cell battery; a battery manager that monitors battery cell voltages and temperatures; and a controller. The controller provides a first control signal that causes the power unit to store energy in the battery and a second control signal that causes the power unit to generate an alternating current. A server in communication with each of the power units stores data collected from the power units about the batteries and analyzes the data to determine how much available energy is stored in the batteries that can be used to alter a load demand of a power network, hi an embodiment, the batteries are lithium ion batteries capable of storing at least ten kilowatt- hours of energy. | 2014-01-16 |
20140015470 | WEARABLE WIRELESS POWER TRANSMISSION APPARATUS AND WIRELESS POWER TRANSMISSION METHOD USING THE SAME - Disclosed herein are a wearable wireless power transmission apparatus and a wearable wireless power transmission using the same. The apparatus includes a wearable energy harvesting unit, a wearable battery unit, a wearable power charging unit, a wearable power transmission processing unit, and a fiber-type primary coil unit. The wearable energy harvesting unit generates power from at least one of light energy and kinetic energy, and is attachable to fabric. The wearable battery unit stores the power, and is attachable and detachable to and from the fabric. The wearable power charging unit rectifies the power, charges the wearable battery unit, and is attachable and detachable to and from the fabric. The wearable power transmission processing unit generates a transmission signal, and is attachable and detachable to and from the fabric. The fiber-type primary coil unit wirelessly transmits the transmission signal to the secondary coil unit of the power reception terminal. | 2014-01-16 |
20140015471 | ENERGY STORAGE DEVICE FOR A PHOTOVOLTAIC SYSTEM, AND METHOD FOR OPERATING AN ENERGY STORAGE DEVICE OF A PHOTOVOLTAIC SYSTEM - An energy storage device for a photovoltaic system includes: at least one first energy store which has a first cycle stability; at least one second energy store which has a second cycle stability, the first cycle stability being higher than the second cycle stability; and a control device which is designed to discharge the first energy store in a first operating mode and to discharge the second energy store in a second operating mode. | 2014-01-16 |
20140015472 | METHOD AND APPARATUS FOR PERFORMING ACTIVE BALANCING CONTROL WITH AID OF VOLTAGE INFORMATION SHARING - A method for performing active balancing control with aid of voltage information sharing is provided. The method is applied to a power supply device. The method includes the steps of: obtaining first voltage information from a specific battery module of a set of battery modules connected in series within the power supply device, where each battery module includes at least one battery cell; obtaining second voltage information from at least one other battery module of the set of battery modules; and determining whether to enable at least one portion of an active balancing circuit of the specific battery module according to the first voltage information and the second voltage information. An associated apparatus is further provided. | 2014-01-16 |
20140015473 | ACTIVE BALANCING CIRCUIT FOR BALANCING BATTERY UNITS - A balancing circuit for balancing battery units includes balancing modules. Each of the balancing modules includes a first and a second switch unit, and a first and a second inductive device, wherein the first inductive device is coupled to the second inductive device. The balancing modules include a first and a second balancing module, respectively coupled to a first and a second battery unit of the battery units. The first inductive device of the first balancing module takes away an excess energy of the first battery unit according to a switch state of the first switch unit of the first balancing module, and stores an inductive energy corresponding to the excess energy in the second balancing module. The second inductive device of the second balancing module provides the inductive energy for the second battery unit according to a switch state of the second switch unit of the second balancing module. | 2014-01-16 |
20140015474 | ACTIVE BALANCING CIRCUIT FOR BALANCING BATTERY UNITS - A balancing circuit for balancing battery units includes a control unit, an inductor unit and an energy transfer unit. The control unit is coupled to at least one battery unit of the battery units. The control unit includes at least one switch device. The inductor unit is coupled between the switch device and the battery unit, and is arranged for taking away an excess energy of the battery unit according to a switch state of the switch device, and accordingly generating an inductive energy corresponding to the excess energy. The energy transfer unit is coupled to the inductor unit, and is arranged for providing the inductive energy to the battery units and storing the inductive energy. | 2014-01-16 |
20140015475 | BALANCE CORRECTING APPARATUS AND ELECTRICITY STORAGE SYSTEM - An object of the present invention is to suppress damages to a drive circuit for a switching device due to a counter electromotive force of an inductor. A balance correcting apparatus includes: an inductor; a first switching device; a second switching device; a control signal generating unit that has a first reference voltage input terminal electrically connected to the other end of the first electricity storage cell and a second reference voltage input terminal electrically connected to the other end of the second electricity storage cell, and allows the first switching device and the second switching device to perform an ON-OFF operation alternately; and a voltage stabilizing circuit that keeps a voltage difference between the voltages of the first reference voltage input terminal and the second reference voltage input terminal to be within a predetermined range. | 2014-01-16 |
20140015476 | CHARGING SYSTEM FOR PORTABLE ELECTRONIC EQUIPMENT - In a charging system for portable electronic equipment, providing the charging current is automatically restarted even in the case where an amount of charging current taken into the portable electronic equipment exceeds charging current providing capacity of a USB battery charger and the USB battery charger stops providing the charging current. When a voltage at a VBUS terminal is lower than a first predetermined voltage, a CPU assumes that the USB battery charger has stopped providing the charging current and turns off a first switching device. And the CPU turns on a second switching device for a predetermined period of time. As a result, the voltage at the VBUS terminal falls to 0.7V or below during the predetermined period of time. In response to the change in the voltage at the VBUS terminal, the USB battery charger restarts providing the charging current to the VBUS terminal. | 2014-01-16 |
20140015477 | BATTERY MANAGEMENT CIRCUIT AND BATTERY MANAGEMENT METHOD FOR MANAGING BATTERY APPARATUS - A battery management circuit for managing a battery apparatus is provided. The battery apparatus includes at least a first battery unit and a second battery unit connected in parallel. The battery management circuit includes a detection circuit and an adjustment circuit. The detection circuit is arranged to detect a voltage relationship between the first and second battery units to generate a first detection result. The adjustment circuit is coupled to the detection circuit. When the voltage relationship does not meet a predetermined voltage condition, the adjustment circuit is arranged to adjust a voltage of at least one of the first and second battery units in order to make the voltage relationship meet the predetermined voltage condition. | 2014-01-16 |
20140015478 | SYSTEMS, METHODS, AND APPARATUS FOR SMALL DEVICE WIRELESS CHARGING MODES - Systems, methods, and apparatus are disclosed for wirelessly charging devices that may not be able to communicate with a wireless charger. In one aspect, a wireless charging device is provided including a transmitter configured to wirelessly transmit power via a wireless field at a power level sufficient to charge one or more electronic devices according to one or more charging modes including at least a first charging mode in which the transmitter is configured to vary the power level of the transmitter based on feedback received from one of the one or more electronic devices and a second charging mode in which the power level is constant. The wireless charging device includes a sensor configured to obtain input for switching between the charging modes. The wireless charging device further includes a controller configured to switch between the first charging mode and the second charging mode in response to the input. | 2014-01-16 |