26th week of 2016 patent applcation highlights part 73 |
Patent application number | Title | Published |
20160190658 | BATTERY-STATE ESTIMATION DEVICE - A battery-state estimation device obtains, at a first timing, a first resistance value corresponding to a first open circuit voltage of a lithium-ion secondary battery and a second resistance value corresponding to a second open circuit voltage, which is higher than the first open circuit voltage, of the lithium-ion secondary battery. Further, the battery-state estimation device obtains, at a second timing which is different from the first timing, a third resistance value corresponding to the first open circuit voltage and a fourth resistance value corresponding to the second open circuit voltage. The battery-state estimation device determines presence or absence of lithium deposition in the lithium-ion secondary battery, based on a magnitude relation between a first variation amount of the third resistance value with respect to the first resistance value and a second variation amount of the fourth resistance value with respect to the second resistance value. | 2016-06-30 |
20160190659 | BATTERY CELL HAVING CONNECTING PROTRUSION FOR VOLTAGE SENSING AND BATTERY MODULE COMPRISING THE SAME - Disclosed herein is a battery cell including a battery cell body having an electrode assembly mounted in a cell case, an electrode terminal protruding from at least one end of the battery cell body, and a connection protrusion for voltage sensing formed integrally with the electrode terminal. | 2016-06-30 |
20160190660 | BATTERY ASSEMBLY HAVING A HEAT-DISSIPATING AND HEAT-EMITTING FUNCTIONS - According to one embodiment of the present invention, a battery assembly comprises: a battery module comprising a plurality of unit batteries; an exterior case for housing the battery module in an internal space; and a heat-dissipating film which is inserted between the plurality of unit batteries and fitted tightly against each of the plurality of unit batteries, and is attached to the inside surface of the exterior case; and the heat-dissipating film comprises: first and second heat-dissipating layers which are formed of a thermally conductive material and discharge the heat of the unit batteries; and an adhesive layer which is formed between the first and second heat-dissipating layers and adheres the first and second heat-dissipating layers. | 2016-06-30 |
20160190661 | TEMPERATURE-RAISING DEVICE AND TEMPERATURE-RAISING METHOD FOR IN-CAR BATTERY - A temperature-raising device for an in-car battery includes: a battery temperature acquisition unit configured to acquire a temperature of a battery mounted in a vehicle; an environmental temperature acquisition unit configured to acquire an environmental temperature; a heater configured to raise the temperature of the battery; and a controller configured to i) turn ON or OFF the heater based on a result of a comparison between the battery temperature acquired by the battery temperature acquisition unit and a predetermined threshold, and ii) reduce the threshold in accordance with a reduction in the environmental temperature acquired by the environmental temperature acquisition unit. | 2016-06-30 |
20160190662 | BATTERY PACK - A battery pack includes cylindrical batteries, a thermal diffusing plate, and a casing. The thermal diffusing plate holds the cylindrical batteries. The casing houses the cylindrical batteries and the thermal diffusing plate. The casing includes a first inner surface, inner surfaces other than the first inner surface, a first outer surface, and outer surfaces other than the first outer surface. The first inner surface is located between the first outer surface and the thermal diffusing plate. The heat transfer coefficient between the first outer surface and an outside air of the casing is lower than the heat transfer coefficient between each of the outer surfaces other than the first outer surface and the outside air of the casing. | 2016-06-30 |
20160190663 | BUSBARS WITH INTEGRATED COOLING SYSTEM FOR VEHICLE BATTERY ASSEMBLIES - A battery assembly includes a plurality of batteries operably positioned to be charged and discharged. At least a first battery and a second battery of the plurality of batteries include a stack of electrochemical cells encased in an electrically inert case. A pair of battery tabs outwardly extends from the case. At least the first battery and the second battery in the battery assembly are configured to be electrically connected through their battery tabs with one or more hollow busbars forming a passage for a coolant flow. | 2016-06-30 |
20160190664 | BATTERY SYSTEM - A battery system is disclosed that includes a battery enclosure and a battery assembly contained within or substantially surrounded by the enclosure. The enclosure may include enclosure walls having fluid pathways defined therein. In an example, enclosure walls are formed from multiple instances of a repeating modular wall component. A cooling fluid may be circulated through the fluid pathways to provide thermal regulation of the battery assembly. The battery system may further include a manifold that distributes the fluid among the fluid pathways of the enclosure. The battery assembly may include one or more electric batteries. An example battery assembly includes a plurality of batteries that are organized into rows. These rows of batteries may be electrically interconnected with each other by electrically conductive strips to form a battery pack. The battery system may be used to provide energy storage within the context of automotive applications or other electronic systems. | 2016-06-30 |
20160190665 | APPARATUS AND METHOD FOR MANUFACTURING A MODULAR BATTERY PACK WITH FLUID CIRCULATION TUBE AND INTERLEAVED FINS - A battery pack includes at least one serpentine fluid circulation tube that extends around part of the periphery of a plurality of electric cells. First and second segments of the tube are disposed adjacent a first and a second edge of a first set of the plurality of electric cells. The sets of electric cells are disposed in an alternating arrangement. A first fin and a second fin are provided between each of the electric cells. The fins have a reverse turn wrapped around the segments of the tube. The fins have internal ends that are disposed between the electric cells and the tube segments. The battery pack may be assembled by folding the fins around the electric cells and the tube or by preforming folded sheets that define thermal fins and assembling the folded sheets over segments of the tube from opposite sides of the electric cells. | 2016-06-30 |
20160190666 | BATTERY-PACK CASE - A battery-pack case includes a container that accommodates a battery pack and has an opening in the top surface thereof, a lid that closes the opening, and a plurality of heater units provided inside the container. The heater units include a first heater unit provided at the bottom of the container and a second heater unit provided on a side wall of the container. A first heater and a second heater that constitute the first heater unit are connected in series, as are third through sixth heaters that constitute the second heater unit. | 2016-06-30 |
20160190667 | LITHIUM-AIR BATTERY AIR ELECTRODE AND ITS PREPARATION METHOD - The present invention provides a lithium-air battery air electrode, the air electrode comprises: a collector, an in-situ loading catalyst on collector. The invention also provides a preparation method of the air electrode for lithium-air batteries and the lithium-air batteries. The air electrode of the present invention can greatly improve the performance of the lithium-air battery. | 2016-06-30 |
20160190668 | AIR BATTERY AND BATTERY PACK - An air battery includes: a cell frame of an insulating material having a bottomed frame shape in which an electrolytic solution and an anode are stored; a cathode that is disposed opposite the anode across the electrolytic solution stored in the cell frame; and a current collecting member that is electrically connected to the anode, wherein the anode and the current collecting member are electrically connected to each other via a plurality of electrically conducting members that penetrate a bottom of the cell frame. | 2016-06-30 |
20160190669 | INTERMODULATION DISTORTION REDUCTION SYSTEM USING INSULATED TUNING ELEMENTS - A coaxial cavity resonator filter has a hollow cavity and a post having desired dimensions for achieving desired filter characteristics. A tuning element is supported within a metallic opening and is configured to electromagnetically interact with the post. The tuning element has a conductive core element where the orientation of the tuning element with the cavity is adjusted so as to achieve the desired filter characteristic. An insulator is configured to cover a portion of the conductive core element of the tuning element, at a location where the tuning element and the metallic opening interact. A portion of the insulator is threaded so as to allow the conductive core element vary its orientation within the cavity without contacting the metallic opening. | 2016-06-30 |
20160190670 | DIRECT AND COMPACT CHIP TO WAVEGUIDE TRANSITION - An apparatus providing a direct chip to waveguide transition, comprising: one or more waveguides, a chip partially embedding each of the waveguides at a transition area positioned at a narrow side of each waveguide, and a transmitting element disposed at each of the transition areas, thereby providing one or more simultaneous, direct transitions between the chip and the waveguides. | 2016-06-30 |
20160190671 | DIRECT AND COMPACT CHIP TO WAVEGUIDE TRANSITION - An apparatus providing a direct chip to waveguide transition, comprising: one or more waveguides, a chip partially embedding each of the waveguides at a transition area positioned at a narrow side of each waveguide, and a transmitting element disposed at each of the transition areas, thereby providing one or more simultaneous, direct transitions between the chip and the waveguides. | 2016-06-30 |
20160190672 | Method and Assembly for Radio-Frequency (RF) Power Coupling - A method and an assembly for radio-frequency (RF) power coupling in a rack includes at least one box shaped power combiner and/or divider, connectors for inputting and outputting RF-power, conductors arranged inside the at least one box shaped power combiner and/or divider, electrically connecting the connectors with at least one center conductor, and at least one outside conductor formed as a box shaped casing. | 2016-06-30 |
20160190673 | IC-PACKAGE INTERCONNECT FOR MILLIMETER WAVE SYSTEMS - Consistent with an example embodiment, a System on Chip (SoC) device operates in millimeter wave frequencies. The SoC device comprises, a silicon device having at least one differential pair pad, the at least one differential pair pad having a shunt inductor coupled thereon. A parasitic capacitance on at least one differential pair pads is tuned out by resonance of the shunt inductor. A package has a redistribution layer (RDL), with an array of contact areas to which the silicon device is mounted and then encapsulated. A connection corresponds to the at least one differential pair pad and the connection is located about an outer row or column of the array of contact areas. | 2016-06-30 |
20160190674 | ANTENNA WITH INTEGRATED CONDENSATION CONTROL SYSTEM - In an example embodiment, an airborne radio frequency (RF) antenna device can comprise: a radiating portion; a waveguide portion connected to the radiating portion; a desiccant airflow channel; and an internal air volume located within the RF antenna device and associated with the desiccant airflow channel. The desiccant airflow channel can be integral with the RF antenna device. The internal air volume can be vented to the environment outside of the RF antenna device through the desiccant airflow channel. | 2016-06-30 |
20160190675 | UNIVERSAL ADAPTER PLATE ASSEMBLY - An improved universal zero-moment support and adapter plate assembly is shown and described. In one embodiment, the assembly comprises an adjustable zero-moment support configured together with an off-axis adjustment. In other embodiments, an adapter and support assembly includes an external fitting, an adapter plate and an adjustable zero-moment support. | 2016-06-30 |
20160190676 | ANTENNA AND WIRELESS COMMUNICATION APPARATUS - Provided is an antenna capable of maintaining excellent antenna characteristics even in a case where the antenna cannot be disposed at a desired position or a case where a plurality of antennas are disposed in a single apparatus. This antenna is characterized by being provided with: a printed wiring board; an antenna circuit which is disposed in a predetermined end portion of the printed wiring board and sends and receives radio waves of wavelength λ; and a series resonance circuit disposed at a position in the predetermined end portion of the printed wiring board, the position being separated from the antenna circuit by a distance depending on the wavelength λ. The antenna is also characterized by being arranged such that the extending direction of the predetermined end portion is perpendicular to the direction of radio wave reception. | 2016-06-30 |
20160190677 | COUPLING-TYPE GRATING ANTENNA - A coupling-type grating antenna includes a substrate having opposing top surface and bottom surface, a monopole antenna element formed on the top surface of the substrate for transmitting a first current and having a feed point and a radiator and a grating conductor respectively extended from the feed point, and a coupling grating body formed on the bottom surface of the substrate opposite to the monopole antenna element for transmitting a second current. Further, the transmitting direction of the first current in the monopole antenna element is reversed to the transmitting direction of the second current in the coupling grating body. | 2016-06-30 |
20160190678 | Antenna Device and Electronic Device Including the Same - Provided are an antenna device and an electronic device including the same. The antenna device includes a dielectric substrate formed of a transparent material, a mesh grid comprising conducting wires formed on at least one of the plurality of surfaces of the dielectric substrate, a first portion of the mesh grid having a radiation conductor formed by a first plurality of the conducting wires, and a second portion of the mesh grid having a dummy pattern formed by a second plurality of conducting wires, in which the dummy pattern includes at least one discontinuous portions in which portions of the second conducting wires are opened to electrically open the first portion forming the radiation conductor from the mesh grid less the first portion, and the first conducting wires are formed to have a line width that is different from a line width of the second conducting wires. | 2016-06-30 |
20160190679 | METHOD OF OPENING A PROTECTIVE DOME, IN PARTICULAR A RADOME, AND RADOME EQUIPPED WITH A PANTOGRAPH FOR IMPLEMENTATION THEREOF - A method for opening a dome for the protection of a device to be protected, fitted in a part described as fixed, in which, in the initial position before opening, a generally plane interface separates the dome from the fixed part, is provided. The method includes connecting the dome to the fixed part by at least two independent double-link connections that are movable in rotation between the dome and the fixed part. The links in a single connection being fitted in common to the dome and to the fixed part to form overall a pantograph in the shape of an isosceles trapezium which, during opening, opens out by pivoting until maximum opening is achieved, so that the dome moves away from the fixed part via a combination of movements in translation and in rotation. | 2016-06-30 |
20160190680 | Signal shield dish cover - A method of using a cover on a satellite receiving dish to prevent the building up of snow, rain or ice on the reflective dish or on the receiving eye of a parabolic dish antenna to prevent the scrambling of the signal being received or transmitted, with the cover having a unique shape that allows it to cover both the reflective dish and the receiving eye while leaving an opening in the center therefore allowing an unimpeded clear signal to be received by the dish in bad weather. | 2016-06-30 |
20160190681 | ANTENNA HAVING A CABLE GROUNDING AREA - An antenna is provided. The antenna includes a feed-in terminal; a radiating portion extended from the feed-in terminal along a first direction to form a first hook portion; a connecting conductor extended from the feed-in terminal to a ground terminal along a second direction opposite to the first direction; and a ground portion extended from the ground terminal and having a cable grounding area, wherein the ground portion and the connecting conductor form a second hook portion opposite to the first hook portion; the cable grounding area has a longitudinal center line; and the first direction and the longitudinal center line form therebetween a specific angle ranging from 49-59 degrees. | 2016-06-30 |
20160190682 | Antenna System and Mobile Terminal - An antenna system and a mobile terminal are disclosed. The antenna system includes an antenna radiator and an adjustable matching circuit connected between the antenna radiator and a radio frequency interface. The adjustable matching circuit adjusts the resistance between the antenna radiator and the radio frequency interface according to a plurality of frequency bands. The antenna radiator in the embodiments of the present disclosure is a metallic body of strip shape, which has a simple structure and is easy to implement and can be combined with the adjustable matching circuit to implement coverage of a larger range band width. | 2016-06-30 |
20160190683 | WIDE BAND ARRAY ANTENNA - An antenna array ( | 2016-06-30 |
20160190684 | MULTIMODE ANTENNA STRUCTURE - One or more embodiments are directed to a multimode antenna structure for transmitting and receiving electromagnetic signals in a communications device. The communications device includes circuitry for processing signals communicated to and from the antenna structure. The antenna structure is configured for optimal operation in a given frequency range. The antenna structure includes a plurality of antenna ports operatively coupled to the circuitry, and a plurality of antenna elements, each operatively coupled to a different one of the antenna ports. Each of the plurality of antenna elements is configured to have an electrical length selected to provide optimal operation within the given frequency range. The antenna structure also includes one or more connecting elements electrically connecting the antenna elements such that electrical currents on one antenna element flow to a connected neighboring antenna element and generally bypass the antenna port coupled to the neighboring antenna element. The electrical currents flowing through the one antenna element and the neighboring antenna element are generally equal in magnitude, such that an antenna mode excited by one antenna port is generally electrically isolated from a mode excited by another antenna port at a given desired signal frequency range without the use of a decoupling network connected to the antenna ports, and the antenna structure generates diverse antenna patterns. | 2016-06-30 |
20160190685 | INTEGRATED ANTENNA BEAM STEERING SYSTEM - The disclosure concerns a beam steering antenna system that can be integrated into a portion of a mobile device, such as a ring conductor that encompasses the device or traverses a portion of the periphery of the mobile device. The single port antenna is capable of generating multiple radiation modes which possess different radiation pattern characteristics. An offset parasitic is implemented to couple to the main radiating element and alter the current distribution to affect a change in radiation mode. The coupling typically occurs at a coupling region designed into the conductive ring used as the antenna in a wireless device. | 2016-06-30 |
20160190686 | BEAM TRACKING METHOD, APPARATUS, AND SYSTEM - The present invention relates to the field of communications technologies, and discloses a beam tracking method, apparatus, and system, so as to ensure rapid discovery and to switch from an optimal link to a backup link in time, or switch from a backup link to an optimal link, thereby effectively improving a throughput of a system link. The beam tracking method includes: transmitting, by a beam tracking initiator, a beam tracking request to a beam tracking responder; receiving, by the beam tracking initiator, an enhanced beam tracking training auxiliary sequence transmitted, according to the enhanced beam tracking request, by the beam tracking responder; and when it is determined according to a reception detection result of the enhanced beam tracking training auxiliary sequence that it is necessary to switch to a backup beam link, transmitting, by the beam tracking initiator, first link switching information to the beam tracking responder. | 2016-06-30 |
20160190687 | MANUALLY BEAM STEERED PHASED ARRAY - A beam steered phased array antenna and system for including the same are described. In one embodiment, the antenna apparatus comprises an array of a plurality of antenna elements, the array having a single moveable feeding point coupled to the antenna elements, where the moveable feeding point is movable with respect to the antenna elements in the array. | 2016-06-30 |
20160190688 | ANTENNA STRUCTURE AND WIRELESS COMMUNICATION DEVICE USING SAME - An antenna structure includes a feed unit, a grounding unit, a connecting unit, a radiating unit, and a resonating unit. The grounding unit is spaced apart from the feed unit. The connecting unit resists and is electrically connected to the feed unit and the grounding unit. The radiating unit is electrically connected to one side of the connecting unit so as to activate a first resonance mode. The resonating unit is electrically connected to another side of the connecting unit so as to activate a second resonance mode. | 2016-06-30 |
20160190689 | ANTENNA STRUCTURE AND WIRELESS COMMUNICATION DEVICE USING SAME - An antenna structure includes a feed unit, a grounding unit, a first radiating unit, a second radiating unit, third radiating unit, fourth radiating unit, and a fifth radiating unit. The grounding unit is spaced apart from the feed unit. The first radiating unit is electrically connected to the feed unit. The second radiating unit is electrically connected to the grounding unit. The third radiating unit is electrically connected to the first radiating unit, the second radiating unit, and the fourth radiating unit. The fifth radiating unit is electrically connected to the feed unit and couples with the fourth radiating unit. | 2016-06-30 |
20160190690 | MULTIBAND SLOT ANTENNA SYSTEM AND APPARATUS - An apparatus comprises an antenna ground plane; a conductive side element, a first antenna resonating element; a second antenna resonating element; and a slot-based antenna element formed from slot structures between the conductive side element and the conductive housing element. At least two RF switches are loaded with lump loads, located across the slot-based antenna element and dividing the slot-based antenna element to sections. A first antenna resonating element capacitively coupled to the slot-based antenna element, and forming a first antenna operating at a first frequency; the second antenna resonating element capacitively coupled to the slot-based antenna element, and forming a second antenna operating at a second frequency; and wherein the first and the second frequency are configured to be tuned at different frequencies based on a lump load switched by the first and the second RF switches. | 2016-06-30 |
20160190691 | MODIFIED VIVALDI ANTENNA WITH DIPOLE EXCITATION MODE - Systems and techniques are provided for a modified Vivaldi antenna with dipole excitation mode. An antenna may include a ground plane and a modified Vivaldi antenna. The modified Vivaldi antenna may include a straight arm with a first end and a second end, the first end being attached to the ground plane, a tapered section, and a balun placed partially between the straight arm and the tapered section. The modified Vivaldi antenna may be placed such that there is a gap between the tapered section and the ground plane. A feed element may be placed such that the feed element crosses the gap between the tapered section of the modified Vivaldi antenna and the ground plane. | 2016-06-30 |
20160190692 | Flexible RFID Antenna - An RFID antenna for a POS device has a slender, single-sided, flexible substrate with a first end and a second end. Multiple conductors extend along the substrate, from the first end to the second end. A flexible covering layer is attached to the substrate and covers the conductors. The substrate is wrapped to superimposed the ends of the substrate. A connector connects the ends of the conductors on the first end of the substrate to the ends of the conductors on the second end of the substrate whereby the plurality of conductors form an antenna in the form of a continuous helical coil. | 2016-06-30 |
20160190693 | HYBRID-TYPE NFC ANTENNA AND THE ELECTRONIC DEVICE THEREOF - A hybrid-type near field communication (NFC) antenna utilized in an electronic device is provided. The hybrid-type NFC antenna includes two differential connection ports and a loop antenna device. The two differential connection ports are respectively coupled to two differential outputs of a radio frequency circuit of the electronic device. The loop antenna device is connected between the two differential connection ports, wherein the loop antenna device includes at least one first metal component, and an inductance of the loop antenna device is greater than a first inductance; and wherein the at least one first metal component is a metal element or an antenna device of the electronic device. | 2016-06-30 |
20160190694 | FLEXIBLE RFID ANTENNA - An RFID antenna has a flexible single-sided substrate including a first end, a second end and a leading-out terminal. A plurality of parallel conductors are provided on the substrate and extend between the first end and the second end of the substrate. One of the multiple conductors is broken at the leading-out terminal and extends to an end of the leading-out terminal to form a connection terminal. A flexible covering layer is attached to the substrate and covers the conductors. Ends of the conductors on the first end of the substrate are respectively connected to ends of the conductors on the second end of the substrate to form a helical RFID coil. | 2016-06-30 |
20160190695 | ANTENNA FOR WIRELESS COMMUNICATION - The present disclosure relates to a wireless communication structure, including a plate, a first antenna, a first magnetic material layer, and a second magnetic material layer. The plate has a first surface, a second surface opposite to the first surface, and a lateral surface extending between the first surface and the second surface. The first antenna is located in the plate. The first magnetic material layer is adjacent to the lateral surface of the plate. The second magnetic material layer is located on the second surface of the plate. | 2016-06-30 |
20160190696 | Circular Polarized Antennas - An apparatus comprising at least one antenna for transmission and/or reception of circularly polarized electromagnetic radiation. The antenna includes a radiating element and a single feed line. The single feed line is coupled between the radiating element and a circuit that drives the antenna. The radiating element has a non-symmetrical outer perimeter shape. The radiating element may include an aperture. The antenna may further include a ground element and a supplemental ground feed structure, the supplemental ground feed structure located between the radiating element and the ground element. | 2016-06-30 |
20160190697 | Circular Polarized Antennas Including Static Element - An apparatus comprising at least one antenna for transmission and/or reception of circularly polarized electromagnetic radiation. The antenna includes a radiating element, a static element, and a single feed line. The single feed line is coupled between the radiating element and a circuit that drives the antenna. The radiating element has a non-symmetrical outer perimeter shape. The radiating element may include an aperture. The antenna may further include a ground element and a supplemental ground feed structure, the supplemental ground feed structure located between the radiating element and the ground element and the radiating element located between the supplemental ground feed structure and the static element. | 2016-06-30 |
20160190698 | PATCH ANTENNA ASSEMBLY - A patch antenna assembly that includes a signal metal layer configured to emit linearly polarized electromagnetic energy to a receiving antenna implanted up to 12 cm underneath a subject's skin; a signal metal layer substrate on which the signal metal layer substrate is positioned; a ground plane located next to the signal metal layer substrate and further away from the subject's skin; a microstrip and capacitance adjustment pad metal layer substrate located next to the ground plane; and a microstrip and capacitance adjustment pad metal layer next to the microstrip and capacitance adjustment pad metal layer substrate, the microstrip and capacitance adjustment pad metal layer comprising: a capacitance adjustment pad configured to adjust a resonant frequency of the patch antenna assembly; and a microstrip attached to the capacitance adjustment pad and configured to induce the emitted electromagnetic energy to be linearly polarized along a longitudinal direction of the microstrip. | 2016-06-30 |
20160190699 | MOBILE DEVICE - A mobile device includes a ground element and an antenna structure. The antenna structure includes a ground branch, a feeding branch, a low-frequency radiation branch, and a high-frequency radiation branch. The feeding branch is coupled through the ground branch to the ground element. The low-frequency radiation branch is coupled to the feeding branch. The high-frequency radiation branch is coupled to the feeding branch. The low-frequency radiation branch has a meandering structure for reducing the SAR (Specific Absorption Rate) of the antenna structure. | 2016-06-30 |
20160190700 | DUALBAND ANTENNA WITH ISOLATION ENHANCED AND METHOD THEREOF - An antenna set includes a first antenna, a second antenna, and a neutralized line. Each of the first antenna and the second antenna has a low frequency resonant path and a high frequency resonant path. The neutralized line is couple to the low frequency resonant path of the first antenna and the low frequency resonant path of the second antenna. The low frequency resonant path of the first antenna and the low frequency resonant path of the second antenna correspond to a first frequency band, the high frequency resonant path of the first antenna and the high frequency resonant path of the second antenna correspond to a second frequency band, and the two low frequency resonant paths do not overlap the two high frequency resonant paths. | 2016-06-30 |
20160190701 | ANTENNA APPARATUS - An antenna apparatus includes a plurality of antenna elements. The plurality of antenna elements may be spaced apart from one another, and a direction of current flowing in each of the antenna elements may be set to be oriented outwardly from substantially the center of the plurality of antenna elements in a length direction of each of the antenna elements or inwardly toward the center in the length direction of each of the plurality of antenna elements. | 2016-06-30 |
20160190702 | SYSTEMS AND METHODS FOR PROVIDING A FREQUENCY SENSITIVE SURFACE ANTENNA - Systems and methods for providing a multi-surface ground plane device for a wideband antenna which employs a frequency selective surface to optimize higher frequencies within the range of the wideband antenna and is especially well adapted for cellular communications for both data and voice but can be employed with any horn style wideband antenna. | 2016-06-30 |
20160190703 | ANTENNA - An antenna includes a dielectric substrate, an antenna conductor, a ground conductor, a waveguide tube, a shield, and short-circuit portions. The shield is provided with a cut having a reverse-taper shape whose width becomes greater from an open end of the cut to an inward end of the cut. The short-circuit portions are provided along a whole periphery of the shield except for a portion provided with the cut. | 2016-06-30 |
20160190704 | CIRCULARLY POLARIZED CONNECTED-SLOT ANTENNA - A connected-slot antenna includes a dielectric substrate, a circular patch overlying the dielectric substrate, and a first conductive ring surrounding the circular patch and overlying the dielectric substrate. The first conductive ring is isolated from the circular patch by a first connected slot. At least four feeds are coupled to the circular patch. Each of the at least four feeds are spaced from adjacent ones of the at least four feeds by approximately equal angular intervals. A metamaterial ground plane includes a plurality of conductive patches and a ground plane. The plurality of conductive patches are separated from the circular patch and the first conductive ring by at least the dielectric substrate. The ground plane is electrically coupled to at least a first portion of the plurality of conductive patches. One or more of the plurality of conductive patches and the ground plane are coupled to ground. | 2016-06-30 |
20160190705 | MULTIBAND COMPOSITE RIGHT AND LEFT HANDED (CRLH) SLOT ANTENNA - This application relates to slot antenna devices based on Composite Right and Left Handed (CRLH) metamaterial (MTM) structures. | 2016-06-30 |
20160190706 | ANTENNA MODULE - An antenna module including a plurality of antennas, a cable connecting the plurality of antennas, and a fixing member configured to maintain a shape of the cable, wherein the cable has a zigzag shape. | 2016-06-30 |
20160190707 | ANTENNA STRUCTURE BASED ON MILLIMETER WAVE AND OPERATION METHOD THEREOF - Provided is an antenna structure of a base station, comprising: at least one beamforming disposed to include an effective beam area having a first diameter and a non-overlapping beam area having a second diameter as a projection criterion of a bottom surface at a spot beam center of a spot beamby considering characteristics, performance, a base station coverage, and a height of the beamforming antenna and disposed so that the second diameter is smaller than the first diameter by a designated size. Accordingly, an enhanced communication based on a millimeter wave is provided. | 2016-06-30 |
20160190708 | Antenna device - An antenna array for receiving and transmitting signals may include a printed circuit board, a first dual frequency band element for transmitting and receiving the signals being mounted on a first end of the printed circuit board and a second dual frequency band element for transmitting and receiving the signals being mounted on a second end of the printed circuit board. | 2016-06-30 |
20160190709 | Antenna System and Electronic Apparatus - The present disclosure discloses an antenna system that includes a first antenna for transmitting and receiving data and having an electrical length that is equal to its resonant electrical length; a second antenna for receiving data and having an electrical length that is less than its resonant electrical length. The present disclosure also discloses a corresponding electronic apparatus. | 2016-06-30 |
20160190710 | ANTENNA STRUCTURE - An antenna structure includes a supporting element, a first coil structure, and a second coil structure. The supporting element has an upper surface, a lower surface, and lateral edges. The lateral edges are positioned between the upper surface and the lower surface and including at least a first lateral edge and a second lateral edge. The first coil structure is disposed adjacent to the first lateral edge of the supporting element. The second coil structure is disposed adjacent to the second lateral edge of the supporting element. The first coil structure and the second coil structure are configured to generate multi-directional side radiation. | 2016-06-30 |
20160190711 | ALUMINUM ELECTRIC WIRE CONNECTING STRUCTURE - A connector includes a crimping portion | 2016-06-30 |
20160190712 | FITTING-EQUIPPED ELECTRICALLY CONDUCTIVE SHEET - A fitting-equipped electrically conductive sheet and a connection fitting configured to electrically connect to another member, in which both a low connection resistance and a high fixing strength are easily achieved. The connection fitting has a crimp section that is crimped to an edge section of the electrically conductive sheet material. The crimp section includes a pair of plate-shaped holding sections between which the edge section of the sheet material is sandwiched, and a folded-back section that connects them. One of the pair of plate-shaped holding sections has a band-shaped recess on an outer surface of an intermediate region between the folded-back section and the opposite edge section, the band-shaped recess being band-shaped by being more strongly crimped to the sheet material than other parts. | 2016-06-30 |
20160190713 | ELECTRICAL CONNECTION TERMINAL STRUCTURE - An electrical connection terminal structure includes: a main body defining a chamber; a metal leaf spring disposed in the chamber, the metal leaf spring being movable with the motion of a shift member to press a conductive wire into electrical connection or release the conductive wire; and an elastic unit mounted in the chamber. When the metal leaf spring is released from the pressing of the shift member to release the conductive wire from the pressing, the elastic unit normally makes the metal leaf spring and the shift member move toward a position where the conductive wire is released. This improves the shortcoming of the conventional electrical connection terminal that when released, the metal leaf spring is apt to interfere with the conductive wire and make it hard to extract the conductive wire out of the main body. | 2016-06-30 |
20160190714 | TERMINAL AND CONNECTION STRUCTURE USING TERMINAL - A terminal includes a body portion formed in a major arc cylindrical shape in which a gap is formed between two edges in the circumferential direction or an overlapping cylindrical shape in which the two edges in the circumferential direction overlap each other, such that a cylindrical space is formed inside the body portion, and locking portions disposed on at least one side out of the back side and the front side in the insertion direction of the body portion and having base pieces that extend from the body portion toward the back side in the insertion direction or the front side in the insertion direction and locking pieces that are provided on the base pieces. The body portion has at least one projecting portion projecting toward the outside. A connection structure includes the terminal, a connected object and a mounting member. It is possible to cause the terminal to which the connected object is attached to stand on its own relative to the mounting member, and to ensure the thickness of a solder layer between the terminal with the connected object and a through hole. | 2016-06-30 |
20160190715 | INTERFACE CARD FASTENING MODULE - An interface card fastening module is provided for assembling an interface card to a housing and electrically connecting the interface card with a main board having an insertion slot corresponding to the interface card, and the opening of the insertion slot is substantially parallel to the main board. The interface card fastening module includes a stopping member and an engaging member rotatably disposed on the housing so as to be movable between a release position and an engage position. Therefore, upon assembling the interface card to the main board, additional riser card would be not required. As a result, the space for installing an adapting member can be saved, and more components may be received in the housing or the size of the housing may become smaller. In addition, since the adapting member is no more needed, the manufacturing cost and assembling hours for the adapting member can be saved. | 2016-06-30 |
20160190716 | SOCKET THAT ENGAGES A PLURALITY OF ELECTRONIC PACKAGES - Some forms relate to a socket having a housing. A first receiving pin field is formed as part of the housing. The first pin receiving field includes a first plurality of electrical contacts. A second receiving pin field is formed as part of the housing. The second pin field includes a second plurality of electrical contacts. An actuation mechanism is configured to engage the first plurality electrical contacts with a first set of pins on a first electronic package and the second plurality electrical contacts with a second set of pins on a second electronic package. | 2016-06-30 |
20160190717 | ELECTRONIC ASSEMBLY THAT INCLUDES A PLURALITY OF ELECTRONIC PACKAGES - Some forms relate to an electronic assembly that includes a plurality of electronic package. The electronic assembly includes a frame and a first electronic package mounted on the frame. The first electronic package includes a first pin grid array. The electronic assembly further includes a second electronic package mounted on the frame. The second electronic package includes a second pin grid array. The electronic assembly further includes an actuation mechanism on the frame. The actuation mechanism is configured to move the first electronic package and the second electronic package relative to the frame during operation of the actuation mechanism. | 2016-06-30 |
20160190718 | BLIND ELECTRICAL CONNECTOR BETWEEN PRINTED CIRCUIT BOARD AND SOLENOID MEMBER - An electrical connector member for electrically connecting together two components of a device, such as a vehicle engine accessory. The connector member has locating members at each end, together with pairs of electrical contacts. The connector member can electrically connect a printed circuit board to a solenoid member or other components in a blind manner. | 2016-06-30 |
20160190719 | WATERPROOF BOARD-TO-BOARD CONNECTORS - Board-to-board connectors that may provide durable and reliable connections, may save board space, and may be easy to manufacture. One example may provide board-to-board connectors that provide durable connections by providing a seal between board-to-board plugs and receptacles. The seal may be an O-ring, gasket, or other seal. The seal may protect contacts on the board-to-board connectors from exposure to fluids, such as water or other corrosive fluids. This seal may provide a level of redundancy with one or more seals protecting a device from external fluids, such as a seal at or in the device enclosure. | 2016-06-30 |
20160190720 | CONNECTOR - Provided a connector for establishing an electrical connection between an electrical conductor and a printed circuit board. The connector includes an insulating element which has a plurality of cavities for accommodating contact elements. The printed circuit board can be inserted in the connector via a slot in a connection face of the insulating element and can be connected to the first contact faces of the contact element provided in the connection face. Opposite the first contact face, the contact elements have a second contact face which is provided for the insulation-piercing contacting of the electrical conductor. The arrangement of the contact elements in the insulating element allows a particularly space-saving design of the connector. | 2016-06-30 |
20160190721 | CONNECTING DEVICE FOR A SWITCHGEAR APPARATUS - A connecting-device for a switchgear apparatus, includes: tulip-cluster-portions for electrically engaging with a contact-stud-element; a mounting-end-part for the mechanical connection to a pole-terminal, and conductive-transmitting-portions for transmitting electrical current from the contact-stud-element to the pole-terminal, each of the conductive-transmitting-portions extending from the respective tulip-cluster-portion to a respective base-portion of the mounting-end-part. The tulip-cluster-portions with the respective conductive-transmitting-portions and with the respective base-portions are integral with one other so as to define respective single-piece-portions. | 2016-06-30 |
20160190722 | Connector - A connector includes: an electrically conductive busbar; a holder that holds the busbar; and a housing that houses therein the holder and the busbar held in the holder, the housing being integrally molded with the holder and the busbar, having insulative property, and exposing an end of the busbar. The holder includes a rib that position the busbar and that form lightened portion in the housing during molding of the housing. Because the rib forms the lightened portion in the housing, the connector can prevent sink and void from occurring in the housing during the molding of the housing. As a result, the connector can, for example, improve moldability without the need to change a desired appearance shape. | 2016-06-30 |
20160190723 | CONDUCTION PATH AND CONNECTOR - A conduction path ( | 2016-06-30 |
20160190724 | Electric Connector Terminal and Electric Connector - An electrical connector is provided and includes a housing and a terminal. The housing includes a terminal receiving passageway and a lance extending into the terminal receiving passageway. The terminal is inserted into the terminal receiving passageway and includes a top surface facing the lance and a holding portion extending from and above the top surface. | 2016-06-30 |
20160190725 | Encased power receptacle - The present invention relates to encased receptacle embodiments for mounting to recessed electrical boxes. | 2016-06-30 |
20160190726 | CONTACT AND CONNECTOR INCLUDING CONTACT - A contact increased in contact reliability by suppressing variation in contact area between the contact and a mating contact. A contact body including a contact portion that is brought into contact with a contact portion of a male-side contact, and a supporting member formed separate from the contact body, for receiving therein the contact portion and movably supporting the contact portion form a female-side contact. The supporting member includes a supporting member body for receiving therein the contact portion and the contact portion, first and second spring portions and provided on the supporting member body, for bringing the contact portion inserted in the supporting member body and the contact portion into contact with each other, and restricting portions provided on the supporting member body, for restricting movement of the male-side contact in a spring portion-bending direction of the first and second spring portions. | 2016-06-30 |
20160190727 | LEVER-TYPE CONNECTOR | 2016-06-30 |
20160190728 | BLIND ELECTRICAL CONNECTOR TO PRINTED CIRCUIT BOARD IN HOUSING - An electrical connector with snap-in compliant arm members, an alignment member and a plurality of pin members for mating with openings on a PCB. | 2016-06-30 |
20160190729 | End-position fixing of a plug-in connection for increasing the vibration resistance - A plug system for high-current plug-in connections includes a cable harness plug including an electrical line, and a unit including an interface for establishing an electrical connection between the cable harness plug and the unit. The plug system also includes a first fixing element for fixing the cable harness plug to the interface in a form-locked manner. The plug system also includes a second fixing element which is configured for fixing the cable harness plug and/or the line to the unit in a form-locked manner so that a movement of the cable harness plug and/or of the line in parallel and perpendicularly to a mating direction of the cable harness plug is prevented. | 2016-06-30 |
20160190730 | PROTECTION MEMBER FOR TRANSMISSION CABLE - A protection member for a transmission cable includes a resilient coat and a fixing member. The resilient coat includes two resilient members connected to each other so as to receive the flexible wire of the transmission cable. A first connection portion is formed on the facing side of each of the resilient members. The two resilient members are connected to each other by the two respective first connection portions. The fixing member includes two hard members connected to each other so as to receive the resilient coat therein. A second connection portion is formed on the facing side of each of the hard members. The two hard members are connected to each other by the two respective second connection portions. The fixing member protects the flexible wire to be overly bent. | 2016-06-30 |
20160190731 | STRAIN RELIEF SLEEVE AND DOCK CONTAINING THE SAME - A strain relief sleeve and a dock containing the same are disclosed. The strain relief sleeve comprises a tube and a pad connected to one end of the tube. The dock comprises a cable, a collar, a housing, the strain relief sleeve, a circuit board and a cover plate, wherein the cable extends through the collar, a through hole of the housing and the strain relief sleeve to electrically connect with the circuit board, and the pad of the strain relief sleeve and the circuit board abut against the inner surface of the housing and the cover plate, respectively. As such, when the cable is pulled or compressed, the strain relief sleeve and the dock containing the same in accordance with the present invention can prevent any crack or detaching of the electrical joints between the cable and the circuit board. | 2016-06-30 |
20160190732 | MAGNETIC CONNECTOR HAVING A UNITARY HOUSING - Power cables that include plug housings having an improved appearance as well as employ a halogen-free cable while providing adequate fire resistance. One example provides a power cable having cable plug with a substantially unitary body. Another example provides a power cable that is formed using halogen-free materials. To provide adequate fire protection, a strain relief formed using multiple materials is used. | 2016-06-30 |
20160190733 | CONNECTOR FOR WEARABLE DEVICE - An electrical connector comprises an insulative housing, a positioning member and a plurality of first terminals. The insulative housing has a tongue. The positioning member is embedded in the tongue and has a main body. The plurality of first terminals are held by the main body of the positioning member and embedded in the insulative housing. The each first terminal has a flat plate-like contact portion exposed from the tongue. | 2016-06-30 |
20160190734 | MAGNETIC CONNECTOR FOR ELECTRONIC DEVICE - An electrical plug and receptacle relying on magnetic force from an electromagnet to maintain contact are disclosed. The plug and receptacle can be used as part of a power adapter for connecting an electronic device, such as a laptop computer, to a power supply. The plug includes electrical contacts, which are preferably biased toward corresponding contacts on the receptacle. The plug and receptacle each have a magnetic element. The magnetic element on one of the plug or receptacle can be a magnet or ferromagnetic material. The magnetic element on the other of the plug or receptacle is an electromagnet. When the plug and receptacle are brought into proximity, the magnetic attraction between the electromagnet magnet and its complement, whether another magnet or a ferromagnetic material, maintains the contacts in an electrically conductive relationship. | 2016-06-30 |
20160190735 | LOW VOLTAGE BUSS SYSTEM - An electrical buss has a carrier and at least a pair of electrically conductive elements. The at least a pair of electrically conductive elements extend linearly along a length of the carrier and at least a portion of each of the least a pair of electrically conductive elements is exposed at a surface of the carrier. A connector is releasably couplable to the electrical buss adjacent to the surface of the carrier. The connector has at least a pair of electrically conductive contacts for engaging with the electrically conductive elements at any desired location along the length of the carrier. | 2016-06-30 |
20160190736 | ELECTRIC CONNECTOR - A connector may include a plurality of contacts electrically connected to a mating connector and separated from one another. At least one of the contacts may include a magnet, and a conductive housing for surrounding at least one side of the magnet. | 2016-06-30 |
20160190737 | FLEXIBLE CONDUIT CONNECTOR - An electrical connection system connecting a flexible conduit to electrical conductors, comprising a conduit portion and a removably attachable base portion. The conduit portion retains an end of the conduit, via a retention mechanism within a first housing at a first end. The conduit portion comprises a first electrical connector housing and electrical terminals within a second end of the first housing. The base portion comprises a base mount and a second housing having a first end pivotably connected to the base mount, the second housing being pivotable at a joint. The base portion may also comprise a second electrical connector housing and electrical terminals within a second end of the second housing for electrical connection to the conduit portion. Mechanical fastening components of the base portion and the conduit portion enable a mechanical connection between the base portion and the conduit portion. | 2016-06-30 |
20160190738 | CONNECTOR WITH LEVER AND FITTING GUIDING STRUCTURE - In a connector including a tubular male housing, a female housing, and a lever turnably supported in one of this male housing and the female housing and also is engaged with an engaging part formed in the other housing and slides the male housing in a direction in which the male housing is fitted into and removed from the female housing by a turning operation, the female housing is provided with support members extending in a direction in which the male housing is fitted and removed along an outer peripheral surface of the male housing, and the male housing is provided with a pair of projecting bar parts projecting from the outer peripheral surface and guide surfaces for guiding the support members are formed on mutually opposed surfaces of this pair of projecting bar parts. | 2016-06-30 |
20160190739 | MEDICAL MODULE CONNECTION BASE AND MEDICAL MODULE EXPANSION SYSTEM - Disclosed is a medical module connection base ( | 2016-06-30 |
20160190740 | INTEGRATED PACKAGE INSERTION AND LOADING MECHANISM (iPILM) - A holding member and system including a first holding member and a second holding member, wherein each of the first holding member and the second holding member are coupled to opposite sides of a load plate of a socket. A holding member includes a body including a pair of arms extending from a first side of the body and spaced to accommodate a portion of an integrated circuit chip package therebetween and at least one clip extending from a second side opposite the first side. Also, a method including coupling an integrated circuit chip package to a first holding member and a second holding member, wherein the first holding member is coupled to a first side of a load plate of a socket and the second holding member is coupled to a second side of the load plate; and inserting the package into a socket of a printed circuit board. | 2016-06-30 |
20160190741 | KEYED CIRCUIT INTERLOCK FOR USE WITH A ROLLING CONTACT ELEMENT - A system of keying and interlocking interconnection systems including rolling contact elements for use with disposable medical sensors including conductive ink circuits, flexible printed circuits, and printed circuit boards. The system includes stiffening elements of sufficient thickness and rigidity to protect the conductors and provide strain relief. The system also provides for keying, aligning, and interlocking of the interconnection system by providing indentations and/or protrusions in the stiffening elements on the male portion that correspond with features on the female portion of the interconnection system. | 2016-06-30 |
20160190742 | PUSH-LOCK ELECTRICAL CONNECTOR - An inline multi-pin connector includes cylindrical male and female connector members which are electrically connected together by pushing the two members together end-to-end. Either the male or the female connector member has a metal cylinder disposed about its conductive pins or sockets, which are adapted for mutual engagement, while the other connector member is provided with inner threads. The metal cylinder includes plural resilient, spaced arms, or tabs, disposed about its outer periphery and urged radially outward and into engagement with the other member's threads to connect the two connector members. Coaxial seals are disposed between and in contact with the two members as is a compressible O-ring seal. The outer periphery of the inner member's cylindrical insulator is provided with alternating peaks and valleys, while the other member's metal cylinder is provided with inwardly extending resilient arms which are adapted for positioning within a respective facing valley to prevent vibration-induced disconnection. | 2016-06-30 |
20160190743 | TEMPORARY ELECTRICAL GROUNDING DEVICE - An apparatus for providing a temporary electrical grounding connection is described. The apparatus comprises a cable electrically joining first and second conductive couplings, the first and second conductive couplings each electrically coupled to a conductive surface using a clamp, magnetic component, or other connection component. A conductive coupling may be connected to the magnetic component using a clamp connected to a stub extending from the magnetic component, and there may be multiple clamps or magnetic components used in different combinations or series to provide an electrical bypass between two or more conductive surfaces. | 2016-06-30 |
20160190744 | Electrical Plug Adapter Having Socket Key Safety System - An electric vehicle (“EV”) charger plug adapter apparatus includes an adapter housing, a socket extending into a first side of the adapter housing, the socket configuration defined by a first technical standard for use with at least one of a first current or voltage rating, a plug extending from a second side of the adapter housing, the plug configuration defined by a second technical standard for use with at least one of a second current or voltage rating, and a key extending from the first side of the adapter housing, wherein the key prevents seating of a second plug into the socket if the second plug does not have a complementary key socket to fit the key. | 2016-06-30 |
20160190745 | ELECTRICAL CONNECTORS HAVING OPEN-ENDED CONDUCTORS - Electrical connector including a plurality of mating conductors. Each of the mating conductors extends between an engagement portion and an interior portion. The engagement portions of the mating conductors are configured to engage contacts of the mating connector. The engagement portions are located proximate to one another at a first nodal region. The interior portions are located proximate to one another at a second nodal region. The electrical connector also includes a first open-ended conductor electrically connected to the engagement portion of a first mating conductor of the plurality of mating conductors and extending from the first nodal region. The electrical connector also includes a second open-ended conductor electrically connected to the interior portion of a second mating conductor of the plurality of mating conductors and extending from the second nodal region. The first open-ended conductor is capacitively coupled to the second open-ended conductor. | 2016-06-30 |
20160190746 | ELECTRICAL CONNECTOR - An electrical connector comprises a body, a terminal positioning member provided at a rear end of the body and a first group of terminals mounted in terminal grooves of the body. The terminal positioning member comprises a first spacing rib and a second spacing rib. The first group of terminals comprises signal terminals and ground terminals. The signal terminals and the ground terminals each comprise a contact portion, a retaining portion and a tail portion, the retaining portion connecting the contact portion and the positioning portion, the positioning portion connecting the retaining portion and the tail portion. The first spacing rib extends between the positioning portions of the adjacent signal terminals, the second spacing rib extends between the positioning portion of the signal terminal and the positioning portion of the adjacent ground terminal and the first spacing rib is longer than the second spacing rib. | 2016-06-30 |
20160190747 | CONNECTOR WITH TUNED CHANNEL - A connector is provided that includes a housing and the housing supports a plurality of wafers. Each wafer supports a terminal and adjacent signal wafers are configured so as to provide broad-side coupled terminals. A pair of signal terminals can be surrounded on both sides by ground terminals that offer shielding so as to help isolate one signal pair from another signal pair. The geometry of the wafers can be adjusted so as to provide a tuned transmission channel. The resultant tuned transmission channel can be configured to provide desirable performance at high signaling frequencies of 12-16 GHz or even higher signaling frequencies such as 20 GHz. | 2016-06-30 |
20160190748 | Power Strip with External Networking Accessory Devices - A load controlling device includes a housing having at least one outlet and at least one low voltage interface; and an external accessory operatively connected to the at least one low voltage interface and comprising a controller and communications circuitry operatively connected to the controller. The external accessory is powered by the low voltage interface and is configured to monitor the at least one outlet and transmit information to an external device regarding the at least one outlet via the communications circuitry. | 2016-06-30 |
20160190749 | Plug Connector - In a plug connector for connecting a field device of automation technology to an energy supply and/or to an evaluation unit, the plug connector includes a connection plug (M | 2016-06-30 |
20160190750 | Connector Fitted with Shorting Terminal - In a connector fitted with a shorting terminal, both sides of an elastic member included in the shorting terminal are respectively provided with abutting parts to form one pair on the left and right, and each of the abutting parts can be independently elastically deformed and also biases two terminals to maintain a shorted state. When the connector fits with a mating connector housing, a short-cancellation member makes contact with a cancellation part and the abutting part is separated from the terminal to cancel the shorted state. | 2016-06-30 |
20160190751 | RETRACTABLE CABLE AND CABLE REWIND SPOOL CONFIGURATION - A spool apparatus is described to include in one particular example a cable spool with a first cylindrical lip and a second cylindrical lip on an opposite side of the cable spool. A center of the spool includes a clutch bearing in the center of both the first cylindrical lip and the second cylindrical lip that provides a rotational axis for the cable spool to rotate around. The apparatus may also include a feed slot near the first cylindrical lip that provides a passage for cable to pass from the second cylindrical lip to the first cylindrical lip. | 2016-06-30 |
20160190752 | MINI COAX CABLE CONNECTOR - A cable connector comprising a connector body, a compression member operably connected to a second end of the connector body, the compression member including a compression portion having a forward facing surface, wherein the compression portion protrudes from an inner surface of the compression member, wherein, when the compression member is slidably axially compressed within the connector body, the compression portion of the compression member compresses an inner sleeve into crimping engagement with a coaxial cable is provided. An associated method is also provided. | 2016-06-30 |
20160190753 | MULTIPLE CONTACT JACK - A female jack is provided that includes one or more terminals and a reception aperture configured to accept a male plug. The female jack also includes a first spring contact with a first mating curvature configured to contact the male plug and create electrical contact between the male plug and the female jack. The first spring contact also includes one or more flex joints. | 2016-06-30 |
20160190754 | ELECTRICAL CONNECTOR ASSEMBLY WITH ROTATABLE FIRST AND SECOND CONNECTORS - An electrical connector assembly includes rotatable first and second connectors, the first connector includes a first housing having a first locking thereof and a plurality of first contacts retained in the first housing, and the second connector includes a second housing having a second locking portion thereof and a plurality of second contacts retained in the second housing. When the second connector mates with the first connector, the second connector is inserted to stay at a first position, and then rotated relative to the first connector to stay at a second position in which the first locking portion latches with the second locking portion, synchronously, the first and second contacting portions mechanically and electrically contact with each other. | 2016-06-30 |
20160190755 | CONNECTOR - A plurality of connector ( | 2016-06-30 |
20160190756 | CONTACT-COMMUTATED ELECTRIC MOTOR - An electric motor with contact commutation may include an external stator and an internal, rotatably mounted rotor. A magnet arrangement including at least one permanent magnet may be arranged fixedly on the rotor. A coil arrangement including at least one electric coil may be arranged fixedly on the stator. A contact commutation assembly may be in communication with the coil arrangement. | 2016-06-30 |
20160190757 | Brush for an Electric Motor - A brush for an electric motor has a brush body having a front end surface configured to make sliding electrical contact with a commutator of the motor. First and second side surfaces are connected to the front end surface. The first side surface and the second side surface are positioned on opposite sides of the brush body in a rotational direction of the commutator. The front end surface has a first contact surface and a second contact surface that contact the commutator earlier than other regions of the front end surface, and are respectively positioned on diametrically opposed corners of the front end surface. In an initial state, the width of the contact area between the brush and the commutator is increased to extend the commutation time. | 2016-06-30 |