14th week of 2016 patent applcation highlights part 43 |
Patent application number | Title | Published |
20160099487 | BATTERY SENSOR POSITIONER, BATTERY SENSOR ASSEMBLY EQUIPPED WITH SAME, AND BATTERY SENSOR - A battery sensor assembly ( | 2016-04-07 |
20160099488 | METHOD FOR THE SWITCHING OF A NUMBER OF BATTERY CELLS IN A BATTERY AND BATTERY SYSTEM WITH A BATTERY COMPRISING A NUMBER OF BATTERY CELL UNITS, EACH COMPRISED OF A BATTERY CELL AND A BATTERY CELL MONITORING MODULE ASSOCIATED WITH SAID BATTERY CELL - A method for the switching of a number of battery cells in a battery which is configured as an electrochemical storage device, wherein each of the battery cells is electrically connected to the battery in accordance with a corresponding first probability P | 2016-04-07 |
20160099489 | ENERGY STORAGE SYSTEM - One aspect of the present invention provides an energy storage device for uniformly controlling internal temperature of a container by controlling a flow of a cooling air current. | 2016-04-07 |
20160099490 | ENERGY STORAGE MODULE AND SYSTEM - An energy storage module, an energy storage system including such modules, and a method for manufacturing an energy storage system are disclosed. The energy storage module may include an energy storage cell unit and a cooling plate unit which are kept in thermal contact with each other by a first retaining element having a through-hole and two deformed end portions. One of the end portions is deformed after the first retaining element has been arranged through the energy storage cell unit and the cooling plate unit. Two or more modules may be stacked together to form an energy storage system. The modules may be held together by a second retaining element arranged through the through-hole of the first retaining element. | 2016-04-07 |
20160099491 | BATTERY PACK HAVING HEAT RADIATION STRUCTURE - A battery pack, including a battery case; a plurality of batteries in the battery case, each of the plurality of batteries extending in a first direction; and a heat radiation member between adjacent batteries and receiving the adjacent batteries on opposite sides, the heat radiation member including a pair of holders to fix opposite ends of the adjacent batteries; a pair of coupling portions extending in the first direction from between the pair of holders and coupling the pair of holders; and a space portion between the pair of holders and the pair of coupling portions. | 2016-04-07 |
20160099492 | Dielectric Resonator, Dielectric Filter Using Dielectric Resonator, Transceiver, and Base Station - Embodiments of the present disclosure provide a dielectric resonator, a dielectric filter using the dielectric resonator, a transceiver, and a base station, and solve a problem that a loss indicator of an existing dielectric filter cannot meet a filtering requirement of a base station. The dielectric resonator includes a body made of a solid-state dielectric material, where an indentation is disposed on a surface of the body, and the surface of the body and a surface of the indentation are covered with a conducting layer; the dielectric filter includes at least two of the foregoing dielectric resonators. Another type of dielectric filter includes a body made of a solid-state dielectric material, where at least two indentations are disposed on a surface of the body, a hole and/or a groove is disposed between adjacent indentations on the body, and the surface of the body is covered with a conducting layer. | 2016-04-07 |
20160099493 | Antenna Device - An antenna device to send and receive radio waves includes a base plate having a first curved slot and a first antenna wall having a first locking arm. The first locking arm a be planar in a first position and deformed to extend through the curved slot in a second position and returns to the first position after passing through the curved slot. | 2016-04-07 |
20160099494 | ANTENNA SYSTEM - Disclosed is an antenna system including a glass antenna that is disposed in window glass that is installed in a window opening that is formed in a metal body of a vehicle, wherein the glass antenna is to receive a radio wave in a MF band or in a LF band; an in-vehicle antenna that is disposed at an inner side of the vehicle compared to the metal body of the vehicle, wherein the in-vehicle antenna is positioned in a vicinity of the glass antenna; and a canceler to cancel a noise signal of the in-vehicle antenna in a received signal of the glass antenna. | 2016-04-07 |
20160099495 | INTEGRATED ANTENNA WITH THE DEVICE HOUSING - A hinge antenna comprises a major conductor, a first rotating element and a second rotating element. The stretching arms on both sides of the major conductor are assembled to the first rotating element and the second rotating element, respectively. The first rotating element further comprises a torque device and a first vice conductor, and the second rotating element further comprises a signal feeding line, a connection device, and a second vice conductor. The signal feeding line is electrically connected to the connection device and the second vice conductor, by which a high frequency signal can be passed to the major conductor, and then passed to the torque device on the other side and the first vice conductor. The aforementioned configuration is utilized to form an antenna loop. In addition, the configuration of this antenna can be applied to a foldable electronic device. | 2016-04-07 |
20160099496 | Multiple-Body-Configuration Multimedia and Smartphone Multifunction Wireless Devices - A multifunction wireless device having at least one of multimedia functionality and smartphone functionality, the multifunction wireless device including an upper body and a lower body, the upper body and the lower body being adapted to move relative to each other in at least one of a clamshell, a slide, and a twist manner. The multifunction wireless device further includes an antenna system disposed within at least one of the upper body and the lower body and having a shape with a level of complexity of an antenna contour defined by complexity factors F | 2016-04-07 |
20160099497 | USER-WEARABLE DEVICES WITH PRIMARY AND SECONDARY RADIATOR ANTENNAS - A user-wearable device include a wireless transceiver, a primary radiator antenna and a secondary radiator antenna. The primary radiator antenna produces a first radio frequency (RF) radiation pattern when driven by the wireless transceiver, wherein the first RF radiation pattern is at least partially circularly polarized. The secondary radiator antenna, which is spaced apart from the primary radiator antenna, is configured to modify the first RF radiation pattern produced by the primary radiator antenna to thereby produce a second RF radiation pattern having increased RF radiation in a specific direction (e.g., away from the user's/wearer's skin) compared to the first RF radiation pattern. Inclusion of both the primary radiator antenna and the secondary radiator antenna increases an overall antenna efficiency (e.g., by about 3 dB) in the specific direction compared to if only the primary radiator antenna was included. | 2016-04-07 |
20160099498 | MAGNETO-DIELECTRIC SUBSTRATE, CIRCUIT MATERIAL, AND ASSEMBLY HAVING THE SAME - A magneto-dielectric substrate includes a first dielectric layer, a second dielectric layer spaced apart from the first dielectric layer, and at least one magnetic reinforcing layer disposed between and in intimate contact with the first dielectric layer and the second dielectric layer. | 2016-04-07 |
20160099499 | Beamforming Method and Apparatus for Directional Signal Transmission - A beamforming method and a beamforming apparatus for directional signal transmission are provided, wherein a multiple antenna beamformer is configured to conduct a data transmission to a beamformee. | 2016-04-07 |
20160099500 | DEVICE, SYSTEM AND METHOD TO MITIGATE SIDE LOBES WITH AN ANTENNA ARRAY - Techniques and mechanisms to transmit signals with an antenna array. In an embodiment, a first signal is received at a first input of the first antenna while a second signal is received at a second input of the second antenna. A difference in phase differentials—the phase differentials each between the first signal and the second signal—results from propagation of the first signal and the second signal in the antenna array and from a difference between respective configurations of the first antenna and the second antenna. Each of the first antenna and the second antenna has respective emitters distributed along the length thereof. In another embodiment, the first antenna and the second antenna have different respective dielectric structures or different respective distributions of emitters. | 2016-04-07 |
20160099501 | ANTENNA AND METHOD FOR STEERING ANTENNA BEAM DIRECTION FOR WIFI APPLICATIONS - An antenna comprising an IMD element and one or more parasitic and active tuning elements is disclosed. The IMD element, when used in combination with the active tuning and parasitic elements, allows antenna operation at multiple resonant frequencies. In addition, the direction of antenna radiation pattern may be arbitrarily rotated in accordance with the parasitic and active tuning elements. Unique antenna architectures for beam steering in Wi-Fi band applications is further described. | 2016-04-07 |
20160099502 | DEVICE AND METHOD FOR RECEIVING SIGNALS BY A PLURALITY OF RECEIVING ARRAYS - Device and method for receiving signals by a plurality of receiving arrays. The device includes a plurality L of receiving arrays, each of the L receiving arrays including: a respective number L | 2016-04-07 |
20160099503 | LOW NOISE BLOCK CONVERTER AND OUTDOOR UNIT - An outdoor unit includes a dish antenna and a low noise block converter positioned at a focus point of the dish antenna. The low noise block converter comprises a housing, a feed cap disposed on top of the housing, and an air permeable membrane disposed on a bottom portion of the housing. The housing includes a base portion, at least one feed horn protruding from the base portion, and a bottom cover attached to a bottom of the base portion so as to form a housing cavity, wherein the bottom cover has a vent hole forming a flow path between the housing cavity and an external environment. The feed cap is disposed on a feed portion of the at least one feed horn and the air permeable membrane is disposed over the vent hole and coupled to the bottom cover via an adhesive, wherein the membrane is configured to permit egress of a gas from the housing cavity therethrough. | 2016-04-07 |
20160099504 | ANTENNA WITH SHAPED REFLECTOR(S), RECONFIGURABLE IN ORBIT - The antenna is provided with at least one shaped reflector and a primary radiating feed arranged in front of a reflector, which is capable of generating a primary beam with a footprint covering a nominal coverage zone. The antenna is also provided with an adjustment device for the primary beam of the primary radiating feed, whereby said adjustment device incorporates a secondary radiating array comprised of a number of elementary radiating feeds arranged around the primary radiating feed, a beam-forming network connected to the elementary radiating feeds which is capable of synthesizing a secondary beam covering a secondary coverage zone and having a footprint which is superimposed, at least partially, upon the footprint, and a coupling device connected to the primary reception chain of the primary radiating feed and the reception chain derived from the secondary radiating array. | 2016-04-07 |
20160099505 | MODULAR ACTIVE ANTENNA STRUCTURES AND ARRANGEMENTS - Various communication systems may benefit from modularity. For example, wireless communication systems may benefit from a modular active antenna arrangement. A system can include a radio module. The system can also include a plurality of antenna radiator elements. The plurality of antenna radiator elements can be integrated with the radio module. The system can be configured to provide a modular assembly. | 2016-04-07 |
20160099506 | OMNIDIRECTIONAL ANTENNA - An omnidirectional antenna is provided. The omnidirectional antenna includes a spiral antenna including a substrate, at least one upper antenna pattern formed on the substrate, and at least one lower antenna pattern formed under the substrate and connected to the upper antenna pattern; and a monopole antenna that supports the spiral antenna and that is connected to the spiral antenna. Therefore, by forming an omnidirectional antenna in a spiral antenna having an upper antenna pattern and a lower antenna pattern at an upper surface and a lower surface, respectively, of a substrate, three-dimensional current flow is available and thus omnidirectional radiation characteristics may be exhibited. | 2016-04-07 |
20160099507 | Terminal, Method of Manufacturing Terminal, and Termination Connection Structure of Electric Wire - A terminal includes a tubular crimp portion that crimp connects with an electric wire. The tubular crimp portion is composed of a metal member. The tubular crimp portion includes a non-weld portion and a weld portion, the weld portion being formed by welding. A metal base material constituting the metal member of the non-weld portion includes a normal portion and an annealed portion. | 2016-04-07 |
20160099508 | FLAT-CABLE CONNECTION STRUCTURE - A holder has a flat cable insertion chamber for a flat cable to be inserted and a cutting blade penetration hole penetrating the flat cable insertion chamber. A jig has a cutting blade penetrating the cutting blade penetration hole of the holder with the flat cable inserted into the flat cable insertion chamber and forming a slit in a cover between a plurality of conductors of the flat cable. | 2016-04-07 |
20160099509 | CONNECTOR HOLDER - It is aimed to provide a connector holder enabling a connector for connecting a coaxial cable and a connector for connecting a wire different in type from the coaxial cable to commonly use a panel hole. A connector holder ( | 2016-04-07 |
20160099510 | WIRE AND METHODS FOR PREPARING A WIRE TO RECEIVE A CONTACT ELEMENT - A method is provided for preparing a wire for installation of a terminal. The method comprises removing an insulating layer from a conductor to expose a portion of a conductor. The method further includes attaching a conductive foil layer to a portion of the exposed portion of the conductor by applying pressure to the conductive foil layer. | 2016-04-07 |
20160099511 | ELECTRICAL CONNECTOR | 2016-04-07 |
20160099512 | INTERPOSER, PRINTED BOARD UNIT, AND INFORMATION PROCESSING APPARATUS - An interposer includes a first contact terminal pressed against a first fixed terminal for signal transmission; a pair of second contact terminals pressed against second fixed terminals for any one of power supply and grounding, the pair of second contact terminals being disposed with a gap in a pressing direction in which the pair of second contact terminals are pressed against the second fixed terminals, each of the pair of second contact terminals having a larger sectional area than the first contact terminal in a crossing direction that crosses the pressing direction; and a plurality of spring members arranged between the pair of second contact terminals, the plurality of spring members being electro-conductive, having a lower elasticity than the first contact terminal, and pressing the pair of second contact terminals against the second fixed terminals. | 2016-04-07 |
20160099513 | CONNECTOR - A connector is connectable with a plate-like or sheet-like object having an upper surface and a lower surface in an up-down direction. The upper surface is formed with an upper signal line. The lower surface is formed with a lower signal line. The connector comprises a first terminal, a second terminal, an insulator member and a housing. The first terminal has an upper-jaw portion and a lower-jaw portion. The upper-jaw portion is provided with an upper contact point. The lower-jaw portion is provided with a lower receiving portion. The second terminal is provided with a lower contact point and a press portion. When the object is connected to the connector, the insulator member is sandwiched between the press portion and the lower receiving portion to insulate the first terminal and the second terminal from each other. When the object is connected to the connector, the upper-jaw portion presses the upper contact point against the upper signal line so that the lower signal line presses the lower contact point downward while the press portion presses the insulator member against the lower receiving portion. | 2016-04-07 |
20160099514 | CAGED POKE HOME CONTACT - A single element connector includes a first cage-like structure configured to receive a wire. The first cage-like structure includes an insert end and a single contact tine coupled to a top wall of the first cage-like structure. The single contact tine extends downward from the top wall to a base of the single element connector and directs a wire inserted into the single element connector to the base of the single element connector. | 2016-04-07 |
20160099515 | FLASH DRIVE WITH ECCENTRICALLY ROTATABLE COVER - A flash drive includes a housing, a storage module, a plug head, a positioning element and a rotatable cover. The housing has an inner space formed by a front wall and a rear wall for accommodating other elements. The storage module has a metal sheet at one end for connecting a connecting plate including a plurality of metal terminals and a plurality of welding pads at the other end for connecting a plug head. The positioning element positions the storage module in the housing and the plug head protruding from a lateral wall of the housing (the top wall of the housing). The rotatable cover is eccentric-rotatablly disposed on the housing to cover or uncover the plug head. | 2016-04-07 |
20160099516 | ELECTRONIC DEVICES - An electronic device includes a connection unit that is electrically connected with an external connection jack utilizing a magnetic force for a non-insertive electrical connection. According to an embodiment, the electronic device may include an electronic device main body; a printed circuit board that is provided in the electronic device main body and that has a connection unit and a plurality of electronic components mounted thereon; and a magnetic connection device unit that is provided in the electronic device main body and that electrically connects the connection unit with an external connection jack by a magnetic force. | 2016-04-07 |
20160099517 | MAGNETIC CONTACTING ARRAY - An adaptive magnetic contacting device is described that comprises a plurality of magnets mounted on a flexible printed circuit board. The mounting configuration allows for local bending of the flexible printed circuit board at the point of attachment of each magnet, allowing for direct mating contact between magnetic arrays of devices despite manufacturing variances. The magnets may serve as a mechanical connection, an electrical connection, or both. | 2016-04-07 |
20160099518 | ELECTRICAL CONNECTOR - An electrical connector for mounting to a flexible substrate and for coupling with a mating connector having a low-profile. The connector comprises a cover portion arranged to extend in a plane parallel to the substrate so as to cover a mounting hole in the substrate. The connector further comprises a body portion comprising a connection port projecting from the cover portion, the connection port having electrical contacts within an end face of the port. The body portion further comprising an alignment collar arranged circumferentially around the connection port, the alignment collar being provided with an alignment feature at a discrete circumferential position for angularly aligning the mating connector with respect to the connection port. | 2016-04-07 |
20160099519 | SECURITY DEVICE - A security device for securing a jack plug during retail display of a product, such as a pair of headphones, that is fitted with a jack plug. The security device comprises a jack plug socket for engagement with the jack plug of the product and operable to lock the jack plug so as to prevent withdrawal of the jack plug from the jack plug socket. In addition, the security device has an input for receiving electrical signals from a source, such as an MP3 player or a mobile phone. The input is electrically connected to the jack plug socket so that electrical signals received at the input are transmitted to the jack plug socket. In addition, the security device is provided with an attachment for attaching the security device to a fixture such as a retail display. | 2016-04-07 |
20160099520 | Lever-type electrical connector with connector positioning assurance member - An electrical connector comprising a cover, a mating assist lever pivotally mounted to the cover and configured to pivot between an open position and a closed position, and a connector positioning assurance (CPA) member slideably mounted to the cover and configured to slide between an inoperative position and a locked position. The CPA member comprises a flexible locking arm that is bendable between a bent position and a rest position. The flexible locking arm comprises a blocking ramp that cooperates with a blocking shoulder on the cover to generate a first threshold force resisting the CPA member from sliding from the inoperative position to the locked position and a locking ramp that cooperates with the locking shoulder on the mate assist lever to bend the flexible locking arm from the rest position to the bent position to prevent the blocking ramp and the blocking shoulder from cooperating. | 2016-04-07 |
20160099521 | POLARIZED ELECTRICAL PLUG AND ADAPTOR WITH ORIENTATION VERIFICATION - A two-prong polarized electrical plug adaptor and a method of confirming proper orientation of a two prong polarized electrical plug with respect to a polarized electrical receptacle or outlet before and after being plugged into the outlet which method includes the steps of: providing a two-prong polarized electrical plug adaptor to which a two-prong polarized electrical plug is coupled; providing an indicia element on the top of the plug adaptor which provides visual confirmation of proper orientation with respect to a polarized electrical receptacle or outlet before and after being plugged into the outlet; providing a polarized electrical receptacle or outlet; and visually confirming that the indicia element is pointing upward when and/or after the plug adaptor is inserted into the polarized electrical receptacle or outlet. | 2016-04-07 |
20160099522 | CONNECTOR - A connector includes a housing that holds a terminal having a first portion and a second portion. The second portion of the terminal includes a grounding terminal assembling part to which a grounding terminal provided at a distal end of a grounding line is assembled, and an assembling angle at which the grounding terminal is assembled to the grounding terminal assembling part is set so that the grounding line extends to be gradually away from a side surface of the housing. | 2016-04-07 |
20160099523 | CONNECTOR - There are provided a first insulator substrate; a first contact comprising a plurality of contact pins arranged in an array on a top surface of the first insulator substrate; a second insulator substrate; a second contact comprising a plurality of contact pins arranged in an array on an undersurface of the second insulator substrate; a metal plate sandwiched between an undersurface of the first insulator substrate and a top surface of the second insulator substrate; and a metal shell accommodating the first and second insulator substrates, the first and second contacts and the metal plate; wherein the metal plate comprises a pair of protruding parts formed on both ends in an array direction of the contact pins, being oriented toward the outside; and the metal shell comprises a pair of windows to be engaged with the pair of protruding part. | 2016-04-07 |
20160099524 | CONNECTOR RECEPTALE HAVING GOOD SIGNAL INTEGRITY - Connector receptacles that have good signal integrity, are reduced in size, are reliable and durable, and are easy to assemble. One example may provide a connector receptacle having several ground connections to improve signal integrity and quality. | 2016-04-07 |
20160099525 | GRIP MEMBER - A grip member in one aspect of the present invention comprises a base portion and one or more pairs of grip portions. Of one and the other of the pair of grip portions, the one grip portion comprises a first spring portion and a second spring portion. The other grip portion comprises a third spring portion and a fourth spring portion. The second and fourth spring portions can grip the shield case by holding the shield case therebetween. The second and fourth spring portions are in contact with the shield case at different positions in regard to at least a direction orthogonal to the joint surface when the second and fourth spring portions grip the shield case. | 2016-04-07 |
20160099526 | ELECTRICAL CONNECTOR AND MANUFACTURING METHOD THEREOF - A electrical connector includes an insulating body having a tongue plate, a plurality of upper conductive terminals having upper contact portions, and a plurality of lower conductive terminals having lower contact portions; the upper and lower conductive terminals are buried and molded in the insulating body, the upper contact portions and the lower contact portions are vertically aligned one by one and respectively exposed on an upper surface and a lower surface of the tongue plate; the upper conductive terminals vertically corresponding to the lower conductive terminals one by one so as to form a plurality of corresponding columns, and the upper and lower conductive terminals of at least one corresponding columns are fixedly connected with each other by riveting. | 2016-04-07 |
20160099527 | ELECTRIC VEHICLE SHIELDED POWER CABLE CONNECTOR - A connector assembly mechanically and electrically connects a shielded power cable, capable of conducting DC and multiple phase AC electric power, to drive motors and powered accessories of an electric vehicle. The connector assembly includes a shielded power cable, a connector body, a sealing ring, a tapered compression ring and a flexible rubber boot. The hollow frustoconical interior of the connector body and the frustoconical tapered compression ring, with the shield layer of the power cable compressed between them, form a self-locking taper that provides a strong mechanical connection. The sealing ring and the flexible rubber boot inhibit penetration of fluids and particles into the connector assembly. The addition of an adhesive to the compressed section strengthens the connection and reduces corrosion. Filling empty spaces inside the connector body with an adhesive sealer further prevents penetration by contaminants, reduces corrosion and strengthens the connector. | 2016-04-07 |
20160099528 | Wire Terminal Connector - A wire terminal connector includes a terminal member having a base panel, two resilient clamp plates that project from the base panel for clamping a wire conductor therebetween, and a stop plate that projects from the base panel and extends transversely of the clamp plates for abutting against one end of the wire conductor, and an insulative housing having a receiving space, a first open end that permits the terminal member to enter and to be disposed in the receiving space, and a second open end that is opposite to the first open end and that is adapted for the wire conductor to enter the receiving space. | 2016-04-07 |
20160099529 | CONNECTOR - A connector that prevents damage to an electric circuit provided inside a connecting object is provided. Two shield cables constituting a wire harness, a cable-side connector accommodating a distal end of the shield cable, and a device-side connector secured to a unit case are included. The cable-side connector includes a conductive shield shell including a shell body and a shell cap member, and a female housing that is made of an insulating resin and accommodated in the shield shell to allow the shield cable to be inserted therein. The shell securing portion for securing together the shell body and the shell cap member is provided in a position to oppose in the fastening direction of the bolt the device-side securing portion that secures the device-side connector to the unit case. | 2016-04-07 |
20160099530 | RJ45 JACKS AND BREAKAWAY RJ45 CABLE ASSEMBLIES USING SAME - The present invention generally relates to the field of network communication. In an embodiment, the present invention is a breakaway RJ45 cable assembly that includes a standard RJ45 plug inserted into a modified RJ45 jack that, upon a sufficient amount of tension, releases the installed standard RJ45 plug. To insure that, as tension builds up in the cable assembly, the connection between the modified RJ45 jack and the patch cord to which the standard RJ45 plug is connected to experience tension substantially along the plug and jack body lengths the breakaway cable assembly is installed in the middle of a communication channel. | 2016-04-07 |
20160099531 | POWER OVER ETHERNET MIDSPAN INJECTION APPARATUS AND METHOD - A midspan injector constituted of: a circuit board; a power injection circuit; a plurality of electrical paths without crossover; a first jack comprising a plurality of pins; and a second jack comprising a plurality of pins, each in communication with a respective pin of the first jack via a respective electrical path, wherein each of the first jack and the second jack exhibits a receptacle with a protrusion of the receptacle extending from a side thereof, wherein the receptacle protrusion of the first jack extends along a first vector and the receptacle protrusion of the second jack extends along a second vector, the direction of the second vector opposing the direction of the first vector, and wherein the power injection circuit is arranged to: receive common mode DC power from a power source; and inject the received power into the plurality of electrical paths. | 2016-04-07 |
20160099532 | ELECTRICAL CONNECTOR SYSTEM - A header assembly of a mezzanine connector system may include a main housing defining signal channels extending through the main housing and ground channels extending into a first surface of the main housing, a plurality of signal modules, and a plurality of ground shields. At least a portion of each of the plurality of signal modules is retained within a respective one of the signal channels. At least a portion of each of the plurality of ground shields is retained within at least one of the ground channels. | 2016-04-07 |
20160099533 | HYDRAULIC POWER TOOL - A biased closed crimping head for a hydraulic power tool. The crimping head comprises a first pivoting pin and a first jaw disposed for rotation about a first axis defined by the first pivoting pin. The crimping head further comprises a second pivoting pin and a second jaw disposed for rotation about a second axis defined by the second pivoting pin. An extension spring is operatively coupled to the first jaw and the second jaw so that the jaws reside in a biased closed position. During a crimping action, the first jaw rotates about a first axis defined by the first pivoting pin, and the second jaw rotates about a second axis defined by the second pivoting pin. | 2016-04-07 |
20160099534 | GAS LASER DEVICE HAVING FUNCTION FOR DISCRIMINATING TYPE OF ALARM - A gas laser device having a function for properly controlling the gas pressure of a laser oscillator after an alarm is generated. A controller of the laser device has an alarm monitoring part which monitors as to whether an alarm is generated in the oscillator, by which discharge in the oscillator should be stopped; an alarm judging part which discriminates a type of the alarm generated in the oscillator; a gas pressure controlling part which controls a pressure of laser gas within a discharge tube of the oscillator; and a power supply controlling part which controls a power supply of the oscillator. The gas pressure controlling part controls the pressure of the laser gas within the discharge tube to an appropriate value, after the alarm is generated, based on one of a plurality of control patterns predetermined corresponding to the respective types of the alarm. | 2016-04-07 |
20160099535 | LASER ARRAY SIDELOBE SUPPRESSION - A laser apparatus comprising an aperture module array including two or more aperture modules, each aperture module of the array being optically couple-able to a source of coherent electromagnetic radiation and configured to emit a beam of radiation received from the source. The apparatus emits a composite beam comprising beams emitted by the respective aperture modules and modulates at least one of the beams in power and phase relative to at least one other of the beams such that a desired non-uniform composite beam profile is provided. | 2016-04-07 |
20160099536 | GENERATION OF CONTINUOUS WAVE DUV LASER RADIATION - A method for generating continuous wave laser radiation in the deep ultraviolet (DUV) spectral range includes the steps of: generating first laser radiation in the ultraviolet spectral range between 205 nm and 265 nm at a first power level, wherein the generation of the first laser radiation involves not more than two frequency conversion steps; generating second laser radiation in the infrared spectral range at a wavelength of more than 900 nm at a second power level; and sum frequency mixing the first and second laser radiation for generating the laser radiation in the deep ultraviolet spectral range below 205 nm. Moreover, a laser system generates continuous wave laser radiation in the DUV spectral range. According to a preferred embodiment, the DUV laser radiation is tunable in wavelength. | 2016-04-07 |
20160099537 | COMPACT, COHERENT, HIGH BRIGHTNESS LIGHT SOURCES FOR THE MID AND FAR IR - Compact high brightness light sources for the mid and far IR spectral region, and exemplary applications are disclosed based on passively mode locked Tm fiber comb lasers. In at least one embodiment the coherence of the comb sources is increased in a system utilizing an amplified single-frequency laser to pump the Tm fiber comb laser. The optical bandwidth generated by the passively mode locked Tm fiber comb laser is further decreased by using simultaneous 2 | 2016-04-07 |
20160099538 | PUMP RECYCLING INTEGRATED AMPLIFIER - A laser system and method of use are provided in which the laser system may include a fiber laser oscillator and rare earth doped piece of optical fiber which may absorb unused pump light which is unabsorbed in the oscillator. | 2016-04-07 |
20160099539 | PHOSPHATE PHOTONIC CRYSTAL FIBER AND CONVERTER FOR EFFICIENT BLUE GENERATION - In the method for generating blue laser light with high optical and electrical efficiency, wherein the improvement comprises the step of using a phosphate glass photonic crystal fiber rod as a gain medium. | 2016-04-07 |
20160099540 | 183NM Laser And Inspection System - A laser assembly for generating laser output light at an output wavelength of approximately 183 nm includes a fundamental laser, an optical parametric system (OPS), a fifth harmonic generator, and a frequency mixing module. The fundamental laser generates fundamental light at a fundamental frequency. The OPS generates a down-converted signal at a down-converted frequency. The fifth harmonic generator generates a fifth harmonic of the fundamental light. The frequency mixing module mixes the down-converted signal and the fifth harmonic to produce the laser output light at a frequency equal to a sum of the fifth harmonic frequency and the down-converted frequency. The OPS generates the down-converted signal by generating a down-converted seed signal at the down-converted frequency, and then mixing the down-converted seed signal with a portion of the fundamental light. At least one of the frequency mixing, frequency conversion or harmonic generation utilizes an annealed, deuterium-treated or hydrogen-treated CLBO crystal. | 2016-04-07 |
20160099541 | OPTICAL PULSE SOURCE WITH INCREASED PEAK POWER - In at least one embodiment time separated pulse pairs are generated, followed by amplification to increase the available peak and/or average power. The pulses are characterized by a time separation that exceeds the input pulse width and with distinct polarization states. The time and polarization discrimination allows easy extraction of the pulses after amplification. In some embodiments polarization maintaining (PM) fibers and/or amplifiers are utilized which provides a compact arrangement. At least one implementation provides for seeding of a solid state amplifier or large core fiber amplifier with time delayed, polarization split pulses, with capability for recombining the time separated pulses at an amplifier output. In various implementations suitable combinations of bulk optics and fibers may be utilized. In some implementations wavelength converted pulse trains are generated. A method and system of the present invention can be used in time domain applications utilizing multiple beam paths, for example spectroscopy. | 2016-04-07 |
20160099542 | OPTICAL AMPLIFIER USING OPTICAL FIBER - The present disclosure provides an optical amplifier using an optical fiber. The optical fiber includes a single-mode optical fiber in which a plurality of rare earth elements is doped simultaneously; first and second optical fiber gratings disposed at opposite sides of the optical fiber, respectively, and totally reflecting light having a wavelength in a specific range; a pumping light source configured to generate a pumping light to excite rare earth ions in the optical fiber; and an optical coupler connected to the optical fiber and configured to transmit a light signal generated from a light source and the pumping light generated from the pumping light source to the optical fiber. Therefore, it is possible to obtain efficient amplification of a light signal through a simple configuration using the rare earth elements-doped optical fiber. | 2016-04-07 |
20160099543 | SEMICONDUCTOR LASER DEVICE - In at least one opening of a plurality of openings | 2016-04-07 |
20160099544 | LASER APPARATUS - A laser apparatus including an active medium, an optical cavity, a wavelength conversion medium, an excitation light source, a first reflector and a second reflector, wherein the active medium and the wavelength conversion medium are arranged between the first reflector and the second reflector, excitation light with a center wavelength λ1 emitted from the excitation light source is caused to enter the wavelength conversion medium through the first reflector, the wavelength conversion medium generates wavelength-converted light with a center wavelength λ2 by entrance of the excitation light, the first reflector and the second reflector reflect the wavelength-converted light, the active medium is photoexcited by at least the wavelength-converted light to emit light, and the laser apparatus causes resonance of the light by the optical cavity to generate laser light with a center wavelength λ3. | 2016-04-07 |
20160099545 | WAVELENGTH STABILIZATION AND LINEWIDTH NARROWING FOR SINGLE MODE AND MULTIMODE LASER DIODES - System for wavelength stabilization in a multimode (MM) laser diode (LD), including at least one MM LD, a respective at least one MM 2×2 beam splitter for each MM LD, an isolator and at least one LD, the LD being respectively coupled with the isolator, the MM LD for generating high power MM laser light, the isolator for enabling laser light to pass through in only one direction and the LD for generating low power laser light, each respective MM 2×2 beam splitter including four ports, each respective MM 2×2 beam splitter having a highly asymmetric splitting ratio and for splitting the generated high power MM laser light and the generated low power laser light, each MM LD being respectively coupled with the fourth port of each respective MM 2×2 beam splitter and a wavelength of the high power laser light locking onto a wavelength of the low power laser light. | 2016-04-07 |
20160099546 | DENSELY ARRAYED WAVEGUIDES WITH LOW CROSS-COUPLING - Described herein are lasers comprising an output port to output an optical signal, a plurality of waveguide segments forming an optical cavity length, and a resonant optical cavity comprising the optical cavity length, a gain medium included in the resonant optical cavity to amplify the optical signal, and a heating element disposed near at least two of the plurality of waveguide segments, the heating element controllable to adjust the phase of the optical signal by heating the waveguide segments. Described herein are optical devices comprising a first plurality of ports to output a plurality of optical signals, a second plurality of ports to receive the plurality of optical signals, and a plurality of coupling waveguides. The plurality of waveguide may comprise a pair of adjacent waveguides separated by a first distance, each of the pair of adjacent waveguides comprising a different width. | 2016-04-07 |
20160099547 | SEMICONDUCTOR LASER LIGHT SOURCE HAVING AN EDGE-EMITTING SEMICONDUCTOR BODY - A semiconductor laser light source comprising an edge-emitting semiconductor body ( | 2016-04-07 |
20160099548 | External cavity with a pair of two Fiber Bragg gratings at the front and back facet of a laser diode - A semiconductor laser chip is placed in between two Fiber Bragg gratings (FBGs), which are used as external cavities for the laser, to stabilize its center wavelength and to reduce its bandwidth. | 2016-04-07 |
20160099549 | SURFACE-EMITTING SEMICONDUCTOR LASER DEVICE AND METHOD FOR PRODUCING THE SAME - A surface-emitting semiconductor laser device includes a substrate and a semiconductor layer disposed on the substrate. The semiconductor layer includes a first semiconductor multilayer film of a first conductivity type, a first spacer layer, an active layer, a second spacer layer, and a second semiconductor multilayer film of a second conductivity type. The first semiconductor multilayer film and the second semiconductor multilayer film form a cavity. A peak of a pattern of a standing wave formed by the cavity and the center of the active layer are located at different positions. | 2016-04-07 |
20160099550 | LASER APPARATUS AND INFORMATION ACQUISITION APPARATUS USING THE SAME - A laser apparatus includes an active medium, a first reflection portion, a second reflection portion, a first laser array including a plurality of semiconductor lasers, a third reflection portion configured to reflect at least part of light emitted from the first laser array and transmitted through the active medium, and a fourth reflection portion configured to transmit at least part of light emitted from the first laser array, and to reflect at least part of light reflected by the third reflection portion and transmitted through the active medium. The fourth reflection portion is disposed across the plurality of semiconductor lasers including respective light-emitting regions of the plurality of semiconductor lasers of the first laser array. | 2016-04-07 |
20160099551 | SPARK PLUG FOR INTERNAL COMBUSTION ENGINE - A spark plug includes a tubular housing, a tubular insulator, a center electrode, a ground electrode, a resistor, and a stem. The insulator is supported inside the housing. The center electrode is supported inside the insulator so as a distal end portion thereof protrudes. The ground electrode forms a spark discharge gap G between the ground electrode and the center electrode. The resistor is supported inside the insulator at a proximal side of the central electrode. The stem is supported inside of the insulator at a proximal side of the resistor. Of an outer peripheral surface of the insulator, and closer to a distal end side than a proximal portion of the resistor is, there is formed a high emissivity surface of which thermal emissivity is at least 0.7 on at least a part of a portion facing an inner circumferential surface of the housing. | 2016-04-07 |
20160099552 | SWITCHGEAR SYSTEM AND RESTRAINT ASSEMBLY THEREFOR - A restraint assembly is for a switchgear system. The switchgear system includes an enclosure having a number of compartments and a number of electrical apparatus, such as for example, circuit breakers, movable into and out of the compartments. The restraint assembly includes at least one latch assembly comprising a mounting member, a latch pivotably coupled to the mounting member, and a number of biasing elements biasing the latch. The latch moves between a latched position corresponding to the latch locking an electrical apparatus within a corresponding compartment, and an unlatched position corresponding to the electrical apparatus being movable with respect to the compartment. The biasing elements bias the latch toward the latched position. | 2016-04-07 |
20160099553 | DISPOSABLE OPTICAL FIBER COATING REMOVAL TOOL - A device to strip the external coating layer off of a coated optical fiber is provided. The optical fiber coating removal device includes a one piece molded body having a first body portion connected to a second body portion by a flexible region and a blade secured in one of the first body portion and the second body portion wherein the blade includes a U-shaped slot having cutting edges on the inside of the slot, wherein the flexible portion allows the first and second body portions to move between an open state and a closed state for stripping an optical fiber. | 2016-04-07 |
20160099554 | CABLE CONNECTOR AND ELECTRICAL BOX ASSEMBLY - A cable connector is provided for coupling to and mounted within the internal cavity of an electrical box for securing an electrical cable passing through an opening in the electrical box. The cable connector includes a body having a first end positioned next to or adjacent the cable opening in the electrical box and a second end spaced from the first end and the cable opening. At least one and typically two retaining members are spring biased from the first end of the body and extend into a cable passage of the body toward the second end. A front wall is provided at the second end of the body with an opening for receiving the wires and forming a stop member to prevent the armor sheathing from passing through the front wall. | 2016-04-07 |
20160099555 | Universal Box Mounting Adapter and System - Improvements in a universal box mounting adapter and system for mounting 4″ and 4 11/16″ boxes directly to stud using side tabs. In addition, the UBM features a bendable back support for rigid installations. The novel feature of this product is the integral conduit support flange. This flange features slots and pinholes for use with a wide assortment of conduit supporting accessories. The adapter can be used with a kick bracket for placing junction boxes between studs at desired heights. The kick bracket can be mounted either vertically or horizontally and features pinholes along the length for adjusting the location of the adapter. Along with integral wings for supporting the kick bracket when installed vertically, the adapter and kick bracket make up a system of configurations to meet the needs of an installer. The adapter is configurable for installing multiple boxes between either 16″ or 24″ studs. | 2016-04-07 |
20160099556 | CABLE MANAGEMENT APPARATUS AND METHOD - Cable management apparatuses and related methods for managing a plurality of cables are provided. In one embodiment, there is disclosed a cable management apparatus having a body with a plurality of grooves. Each groove of the plurality of grooves is for receiving therein a portion of at least one cable. The body also has a plurality of cavities. Each cavity of the plurality of cavities is for receiving a portion of at least one securing member for securing the at least one cable to the body. | 2016-04-07 |
20160099557 | ARRANGEMENT FOR SEALING THE CONNECTION POINT OF ELECTRICAL LINES - An arrangement ( | 2016-04-07 |
20160099558 | APPARATUS AND METHOD FOR PREVENTING INTRUSION INTO SPLICE CLOSURE - An apparatus and method are provided for preventing intrusion into a splice closure. The apparatus includes a pair of end wall plates, a first housing plate and a second housing plate affixed to an outer casing of the splice closure. Each end wall plate includes two or more end wall segments made of a formable metal and having a plurality of finger-shaped extensions that are bendable to conform to the contour of an end wall of the splice closure and around any cable(s) entering or exiting the splice closure. The first housing plate is made of a metal and pre-formed to conform to the contour of a first housing half of the outer casing of the splice closure. The second housing plate is made of a metal and pre-formed to conform to the contour of a second housing half of the outer casing of the splice closure. The first and second housing plates may be separable along a centerline of symmetry for use with an extended-length splice closure. | 2016-04-07 |
20160099559 | OVERCURRENT PROTECTION FOR AN AUTOMOTIVE INSTRUMENT CLUSTER - A system and method for protecting an instrument panel circuit from overcurrents includes a differential amplifier that magnifies a voltage drop across at least one power input component. The magnified voltage drop is provided to a hysteresis comparator that compares the voltage drop against a pair of hysteresis thresholds. When the voltage drop exceeds the thresholds, an overcurrent is detected and a default state of a power switching element is changed from closed to open. | 2016-04-07 |
20160099560 | CIRCUIT APPARATUS AND ELECTRONIC APPLIANCE - With an IC including a driver that drives a large current, its characteristics may be deteriorated or the IC may be broken by heat generated by the large current. By providing a plurality of sensors and disposing some of the sensors so as to be close to an output driver that flows a large current, which is a source of heat generation, an increase in the temperature of the IC can be rapidly detected, and the deterioration of the characteristics of the IC can be prevented by accurately actuating an overheating protection function based on a result of detection. Alternatively, breakage of the IC can be prevented by suppressing overheating. | 2016-04-07 |
20160099561 | POWER DISSIPATING ARRANGEMENT IN A WIND TURBINE - A power dissipating arrangement for dissipating power from a generator in a wind turbine is provided. The generator comprises a plurality of output terminals corresponding to a multi-phase output. The power dissipating arrangement comprises a plurality of dissipating units, a plurality of semiconductor switches, a trigger circuit for switching the semiconductor switches and a control unit for controlling the operation of the trigger circuit, thereby controlling the switching of the semiconductor switches. | 2016-04-07 |
20160099562 | ELECTRICAL SYSTEM AND SUPPORT ASSEMBLY THEREFOR - A support assembly is for an electrical system. The electrical system includes a network protector and a number of disconnect switches coupled to the network protector. The support assembly includes: an insulative mounting member coupled to each of the disconnect switches; a number of base assemblies each including a housing assembly and a stand assembly disposed on the housing assembly, the housing assembly being coupled to the insulative mounting member; and a lifting apparatus disposed on each of the base assemblies. The lifting apparatus moves each of the insulative mounting member and the housing assembly in a direction transverse to the stand assembly. | 2016-04-07 |
20160099563 | TRANSIENT ELECTRICAL LOAD DECOUPLING FOR A DIRECT CURRENT POWER SUPPLY - Various arrangements for mitigating voltage droop in a direct current circuit configured to power multiple capacitive loads are presented. A voltage source configured to output a direct current voltage to power the multiple capacitive loads may be present. First and second outputs electrically coupled with the voltage source such that the outputs, when electrically coupled with capacitive loads, provide a voltage to the capacitive load may be provided. A transformer module (which may include a transformer and an impedance) electrically coupled with the first output and the second output may also be provided. When the first capacitive load is electrically coupled with the first output, the transformer may be configured to mitigate droop of the first voltage to the first output upon the second capacitive load being connected to the second output and receiving inrush current. | 2016-04-07 |
20160099564 | POWER DELIVERY IN A MULTIPLE-OUTPUT SYSTEM - The disclosed embodiments provide a system that operates a power supply. During operation, the system disposes a first switching mechanism between a first output of a first power converter and two or more loads. Next, the system obtains two or more error signals for the two or more loads, wherein each error signal from the two or more error signals represents a difference between a load voltage of a load from the two or more loads and a first reference voltage for the load from a first set of reference voltages for driving the two or more loads using the first power converter. The system then uses the first switching mechanism to couple the load with a largest error signal from the two or more error signals to the first output. | 2016-04-07 |
20160099565 | INTELLIGENT ELECTRIC GRID MANAGEMENT SYSTEM AND METHOD - An intelligent electric grid management system and method includes at least one feeder line controller, which is arranged between a secondary power transforming station and at least one power supply feeder line to receive high voltage power and a control instruction from the secondary power transforming station and to store and set, in advance, digital code data of each power supply feeder line, an smart meter of a user end, appliance loads, and priority cutoff levels, a plurality of smart meters, which is each connected between the distribution line of each user end and at least one power feeder line, wherein the smart meter and the feeder line controller transmit therebetween a user end load ON/OFF control signal and a load state detection feedback signal through the power supply feeder line by means of the power line communication protocol; and a plurality of intelligent load receptacles, which is connected to the receptacle power line of the distribution line of the user end and the household appliance loads so that based on the power grid overall power requirement state and the priority cutoff level, the feeder line controller controls, through the smart meter by means of the power line communication protocol, each of the intelligent load receptacles to supply or cut off power to the household appliance load connected thereto. | 2016-04-07 |
20160099566 | Method For Controlling Power Distribution - Embodiments of the present invention produce and define a relationship between local voltage and power measurements at a node of an electrical network and system conditions on a remote branch of the network. These local measurements are used to determine an optimal voltage set point at the node that, if realised by a reactive power resource, would affect the flow of reactive power or line current at one or more particular remote branches of the power system in a manner captured by the derived relationship. The change in reactive power required to obtain this voltage set point is also calculated based on local measurements. | 2016-04-07 |
20160099567 | Dynamic and Adaptive Configurable Power Distribution System - A power distribution system is dynamically and adaptively configured in real-time to improve energy efficiency, reliability and power quality, particularly if the system includes renewable sources and storages. An optimal multi-objective scheduling and partitioning method is provided to partition the system into self-sufficient sections (SSS) through optimally combination of adjacent basic switching sections (BSS). The SSSs enable system operating at a lower cost, with less power losses, more energy efficiency, improved power quality, and sufficient transient security. The method uses two storage based transient security indices, storage compensation power margin (SCPM) and storage compensation energy margin (SCEM) evaluate the transient stability margin of distribution system. A minimal stability margin is used to ensure that the system remains stable when subject to large unexpected load deviations. | 2016-04-07 |
20160099568 | POWER SYSTEM FOR PROVIDING A GRID SERVICE TO A POWER GRID - A power system for providing a grid service to a power grid, said power system comprising: an energy resource controller (ERC) adapted to monitor a state of charge (SOC) of at least one energy storage device (ESD), wherein said energy resource controller (ERC) adjusts in a normal operation mode (NM) a power supplied by the energy storage device (ESD) to said power grid (PG) or a power received by the energy storage device (ESD) from said power grid (PG) in response to grid parameters or remotely generated control signals to stabilize said power grid (PG), wherein if the monitored state of charge (SOC) of said energy storage device (ESD) exceeds an upper state of charge limit (SOC-H) the energy resource controller (ERC) connects in a power absorption mode (PAM) a power absorbing load (PAL) to said power grid as long as the grid parameters or remotely generated control signals indicate that power is to be removed from said power grid (PG). | 2016-04-07 |
20160099569 | ENERGY GENERATING DEVICE WITH FUNCTIONALLY RELIABLE POTENTIAL SEPARATION - An energy generating device for generating electric energy from an energy source, in particular a regenerative energy source, and for feeding the generated electric energy into a grid, in particular a power supply grid, comprises: a power converter for converting energy at its input into a grid compatible energy at its output, at least one electric line for electrically connecting the output of the power converter to the grid, a separation device for a potential separation of the power converter from the grid, a noise filter device for discharging high-frequency interference signals against a reference point, a measuring device for capturing discharge currents flowing over the noise filter element and for delivering a discharge current signal characterizing a respective discharge current, and a control device for controlling the switch elements of the separation device. | 2016-04-07 |
20160099570 | Compact Omnidirectional Modular Power Harvesting System - The present invention relates to a compact omnidirectional energy harvesting system consisting of a semi-spherical (geodesic dome) shaped photovoltaic collector- and vertical-axis wind turbine, equipped with a power management system to convert, optimize and store the resulting solar, wind and auxiliary energy into electrical energy. The present invention has auxiliary energy capture ports to harvest ambient energies such as thermoelectric, piezoelectric, electromechanical, hydroelectric, rectifying antenna, electrostatic and electrochemical through plug-in modules. The resulting combined electrical energy, from all potential sources, is stored in rechargeable batteries or capacitors for eventual consumption to power lights, sensors, beacons, transmitters, cameras, wireless communications, or to provide a power supply in remote locations. | 2016-04-07 |
20160099571 | POWER ALLOCATION SYSTEM - A hub device controls an electrical energy state of one or more appliances, and controls an alternative electricity supply such as a solar generation installation whose output is non-constant such that sometimes the electrical energy available from the alternative electrical supply is greater than the electrical energy demand from the appliances, and at other times the electrical energy available from the alternative electrical supply is less than the electrical energy demand from the appliances. The hub device may control the alternative electricity supply and/or the appliances such that the electrical energy available from the alternative electrical supply is matched to the electrical energy demand from the appliances. | 2016-04-07 |
20160099572 | SYSTEM FOR OPERATION OF PHOTOVOLTAIC POWER PLANT AND DC POWER COLLECTION WITHIN - A system is disclosed for extracting a medium DC voltage from a plurality of PV modules arranged in an array and supplying the medium DC voltage to inverters located outside the array near a point of interconnection with a utility grid. | 2016-04-07 |
20160099573 | CIRCUIT ARRANGEMENT FOR INLINE VOLTAGE SUPPLY, USE OF SUCH A CIRCUIT ARRANGEMENT AND DEVICE HAVING SUCH A CIRCUIT ARRANGEMENT - In a circuit arrangement for in-line supply of voltage to an electrical or electronic apparatus located in the region of a DC line, a parallel circuit of two diodes oriented in anti-parallel is arranged in the line. When a direct current is flowing between terminals of the circuit arrangement, the anti-parallel diodes permit a small voltage drop between the terminals, irrespective of the direction of flow of the current, which voltage drop is limited to the forward voltage of the diode that is currently forward biased. The voltage drop across the anti-parallel diodes is tapped by a supply subcircuit. A semiconductor switch can be connected in parallel with the anti-parallel diodes, which switch is controlled by a voltage-reduction subcircuit to minimize the power dissipation of the circuit arrangement. | 2016-04-07 |
20160099574 | ARRANGEMENT PROVIDING A 3-PHASE OR 1-PHASE POWER STREAM - An arrangement is provided for alternatively providing a 3-phase or a 1-phase power stream. In an embodiment, the arrangement includes a 3-phase power source including a first, a second and a third power source output terminal; a switching section adapted to selectively provide, from the three power source output terminals of the 3-phase power source, either: a 3-phase power stream at three arrangement output terminals or a 1-phase power stream at two arrangement output terminals, different from the three arrangement output terminals. | 2016-04-07 |
20160099575 | Portable Power Supply - The present disclosure is directed to a portable power supply system for providing power to corded power tools. The portable power supply is configured to receive AC power through an AC power connector from an AC power source and DC power through a DC power connector from a DC power source. The portable power supply is configured to selectively provide the AC power and the DC power to a power supply output. The AC power and the DC power may be provided simultaneously or alternately to the power supply output. | 2016-04-07 |
20160099576 | WIRELESS POWER TRANSMISSION DEVICE - A wireless power transmission device includes a main body, a first transmitter coil and a second transmitter coil. The second transmitter coil is partially stacked over the first transmitter coil. If the wireless power transmission device is operated in a detecting mode, a magnetic flux oriented in the direction toward the top surface of the main body is generated by the first transmitter coil. The magnetic flux is attenuated by the second transmitter coil. Consequently, the electromagnetic wave is inhibited. If the wireless power transmission device detects that an electronic device is located near the first transmitter coil, the first transmitter coil is controlled to be in a charging mode to transmit the magnetic flux to the electronic device, and the magnetic flux is no longer attenuated by the second transmitter coil. | 2016-04-07 |
20160099577 | WIRELESS POWER TRANSMISSION/RECEPTION DEVICE - Apparatuses, systems, and methods of wireless power transmission/reception are described. In one wireless power transmission/reception device, a planar resonator capable of generating magnetic fields has one or more ferrite members mounted thereon such that the magnetic fields generated by the planar resonator have an overall direction substantially tilted or parallel to its opening/face, i.e., to the plane of the planar resonator. In a wireless power reception device, the planar resonator generates magnetic fields and an induced current when being resonated by external magnetic fields; in a wireless power transmission device, the planar resonator generates magnetic fields when being supplied with power. | 2016-04-07 |
20160099578 | APPARATUS AND METHOD FOR TRANSMITTING POWER WIRELESSLY - The present invention relates to a method and an apparatus for wirelessly transmitting power. A method for wirelessly transmitting power according to an embodiment can measure and store signal strength values corresponding to inductive coupling degrees with a secondary coil of a receiving apparatus sequentially with respect to two or more primary coils included in two or more resonance circuits, select a primary coil related to a largest signal strength value among the signal strength values as an operating coil, adjust a reference value of a power loss value which becomes a basis for entering a mode for detecting power loss based on a difference between a signal strength for a primary coil adjacent to the operating coil and a signal strength value for the operating coil, and transmit power to a wireless power receiving apparatus through the operating coil. | 2016-04-07 |
20160099579 | WIRELESS POWER TRANSMISSION SYSTEM, AND METHOD OF CONTROLLING TRANSMISSION AND RECEPTION OF RESONANCE POWER - A resonance power transmission system, and a method of controlling transmission and reception of a resonance power are provided. According to one embodiment, a method of controlling resonance power transmission in a resonance power transmitter may include: transmitting resonance power to a resonance power receiver, the resonance power having resonance frequencies which vary with respect to a plurality of time intervals; and receiving, from the resonance power receiver, information regarding the resonance frequency having the highest power transmission efficiency among the resonance frequencies used in the time intervals. | 2016-04-07 |
20160099580 | BATTERY CHARGER WITH USER INTERFACE - A battery single charger may accommodate Li-type and Ni-type batteries, having default charge settings and user-adjustable charge parameters in an ‘advanced mode’. Lithium Polymer (LiPo) batteries equipped with RFID technology and integrated balance taps may communicate with a device such as a battery charger equipped with similar technology providing information such as chemistry type, cell count, recommended charge rates, number of charges on the battery, among other types of information. Several safety features may be included. | 2016-04-07 |
20160099581 | BATTERY CHARGER WITH USER INTERFACE - A battery charger may accommodate simultaneous charging of one or more batteries. The battery charger may also accommodate high power charging of a single battery. Li-type and/or Ni-type Batteries equipped with RFID technology may communicate with the battery charger equipped with similar technology to provide default charge settings in response to battery chemistry type, cell count, recommended charge rates, number of charges on the battery, among other information. The charge parameters may be user-adjustable in an ‘advanced mode’ of the battery charger. Several safety features may be included. | 2016-04-07 |
20160099582 | SINGLE INDUCTOR DC-DC CONVERTER WITH REGULATED OUTPUT AND ENERGY HARVESTING SYSTEM - An energy harvesting circuit receives an input voltage from a transducer and uses a single inductor operating in a DC-DC converter charging mode to generate charging current at a first output coupled to an energy storage device where a supply voltage is stored. The energy harvesting circuit further receives the supply voltage from the energy storage device and uses the same single inductor operating in a DC-DC converter regulating mode to generate load current at a second output where a regulated load voltage is provided. The energy harvesting circuit switches between the charging mode and the regulating mode in accordance with a discontinuous mode (DCM) control process. | 2016-04-07 |
20160099583 | POWER CONNECTOR FOR A BATTERY MANAGEMENT SYSTEM - The present disclosure is directed to an improved energy storage system. The energy storage system includes an energy storage device having positive and negative terminals, a battery management system configured to monitor and control the energy storage device, and a power connector configured to electrically couple the battery management system with the energy storage device. The power connector includes a housing and positive and negative bus bars, each containing a positive and negative interface pin, respectively. The interface pins are operatively coupled to the positive and negative terminals of the energy storage device to form a power connection. The housing contains separate, opposing side walls defining an open passageway therebetween. Thus, the open passageway provides air cooling across the power connection. | 2016-04-07 |
20160099584 | ELECTRONIC APPARATUS AND CONTROLLING METHOD THEREOF - An electronic apparatus and a controlling method thereof are provided. The electronic apparatus includes an interface configured to connect an external apparatus and a controller configured to determine a type of the external apparatus connected to the interface, and in response to a mode of the electronic apparatus being converted to a standby mode, to control power of the interface based on the determined type of the external apparatus. | 2016-04-07 |
20160099585 | BATTERY PACK AND DRIVING METHOD THEREOF - A battery pack and a driving method thereof are disclosed. In one aspect, the method includes outputting first data at the first rack BMS, determining whether a response to the first data has been received, and driving the first rack BMS based on whether the response has been received. | 2016-04-07 |
20160099586 | ELECTRIC STORAGE DEVICE MANAGEMENT APPARATUS AND METHOD OF EQUALIZING CAPACITIES OF ELECTRIC STORAGE DEVICES - A method for equalizing states of electric storage devices, which are connected in series, of an electric storage device assembly, includes preparing discharging time period data including discharging time periods associated with sequential numbers, determining whether a voltage of each electric storage device has reached a reference voltage during charging or discharging of the electric storage device assembly, and discharging the electric storage devices, using a discharging circuit, for respective discharging time periods associated with the sequential numbers, the sequential numbers being assigned to the electric storage devices according to a sequence of the electric storage devices determined based on time points at which the voltages of the electric storage devices have reached the reference voltage. | 2016-04-07 |