Entries |
Document | Title | Date |
20080229576 | Propagating Pin Corrections Through Physically Mating Devices - Propagating pin corrections through physically mating devices including bending one of a plurality of connectors of a first mating device; and mating the first mating device having the bent connector with an unmodified second mating device; wherein the mating of the first mating device and the unmodified second mating device bends a connector corresponding to the bent connector of the first mating device. | 09-25-2008 |
20090000117 | Apparatus And Method For The Insertion And Withdrawal Of Plug-In Modules - An apparatus for the insertion and withdrawal of a plug-in module with front panel into and out of a module carrier, includes a lever arm ( | 01-01-2009 |
20090007427 | LAND GRID ARRAY (LGA) INTERPOSER UTILIZING METAL-ON-ELASTOMER HEMI-TORUS AND OTHER MULTIPLE POINTS OF CONTACT GEOMETRIES - A method of producing a land grid array (LGA) interposer structure, including an electrically insulating carrier plane, and at least one interposer mounted on a first surface of said carrier plane. The interposer possesses a hemi-toroidal configuration in transverse cross-section and is constituted of a dielectric elastomeric material. A plurality of electrically-conductive elements are arranged about the surface of the at least one hemi-toroidal interposer and extend radically inwardly and downwardly from an uppermost end thereof into electrical contact with at least one component located on an opposite side of the electrically insulating carrier plane. | 01-08-2009 |
20090013529 | Connector Removal Tool - A tool for engaging a telecommunications connector within a slot so that a releasable latch of the connector is released by the tool. The tool may be used to remove a telecommunications connector from a mating opening of a receptacle or may be used to insert a connector within a receptacle. | 01-15-2009 |
20090071000 | Formation of circuitry with modification of feature height - A connection component for mounting a chip or other microelectronic element is formed from a starting unit including posts projecting from a dielectric element by crushing or otherwise reducing the height of at least some of the posts. | 03-19-2009 |
20100088888 | LITHOGRAPHIC CONTACT ELEMENTS - A method of forming an interconnection, including a spring contact element, by lithographic techniques. In one embodiment, the method includes applying a masking material over a first portion of a substrate, the masking material having an opening which will define a first portion of a spring structure, depositing a structure material (e.g., conductive material) in the opening, and overfilling the opening with the structure material, removing a portion of the structure material, and removing a first portion of the masking material. In this embodiment, at least a portion of the first portion of the spring structure is freed of masking material. In one aspect of the invention, the method includes planarizing the masking material layer and structure material to remove a portion of the structure material. In another aspect, the spring structure formed includes one of a post portion, a beam portion, and a tip structure portion. | 04-15-2010 |
20100095524 | Jacket Sleeve with Grippable Tabs for a Cable Connector - A jacket sleeve with grippable tabs provides protection to exposed portions of cable that are connected to an electrical connection. The jacket sleeve can be made as part of the electrical connector or may be connected subsequent to its creation through the use of glues or other adhesives. The jacket sleeve can be made of a material that is more pliable than the electrical connector, making it easier for a lineperson to place the sleeve over an exposed portion of cable. The jacket sleeve can include holes or slots either in the sleeve or in tabs that are attached to the sleeve. A lineperson can place one or more fingers into each hole or slot in order to get a better grip on the sleeve and pull the sleeve over the exposed portion of cable with less slippage and effort on the part of the lineperson. | 04-22-2010 |
20100218374 | SAFETY MODULE ELECTRICAL DISTRIBUTION SYSTEM - A wiring module that can be installed in an electrical junction box and can receive a removable electrical outlet module, a removable electrical switch module, or other types of electrical functional modules. The wiring module and the removable electrical outlet and switch modules may include connectors having a mechanical portion and an electrical portion. The electrical connector portions may be configured so as not to be exposed to user contact when the mechanical connector portions are at least partially engaged. | 09-02-2010 |
20100223786 | Method of Compensating for Crosstalk - A network cable jack includes a printed circuit board (PCB) for balancing both inductive and capacitive coupling. Using a PCB allows compact trace paths to be formed without significantly increasing manufacturing costs. By including on each trace path two distinct inductance zones separated by a neutral zone, significant gains in degrees of freedom are achieved for designing PCB trace patterns in which a pair of inductive coupling zones jointly offset the inductive coupling caused by a specification plug and the jack contacts, both in magnitude and phase angle. Further, using distinct inductance zones offers more freedom regarding the placement of capacitive plates for use in capacitance balancing as well as the placement of terminals and insulation displacement contacts. Although the magnitude of a capacitive coupling is determined by the length of the capacitor plates parallel to current carrying traces, the approach allows capacitive and inductive coupling to be balanced independently. | 09-09-2010 |
20100251545 | WAFER PROBE - The present invention relates to a probe for testing of integrated circuits or other microelectronic devices. | 10-07-2010 |
20100269339 | METHOD OF FABRICATING STIMULATION LEAD BY FUSING CONNECTOR SEGMENT BETWEEN LEAD BODY AND ELECTRODE PORTION OF THE LEAD - In one embodiment, a process, for fabricating a medical lead comprises: providing a splicing tube having a plurality of angularly spaced longitudinal grooves; placing a first plurality of conductors within the plurality of angularly spaced grooves defined on an exterior surface of the splicing tube; placing a second plurality of conductors within the plurality of angularly spaced grooves and adjacent to the first plurality of conductors such that a portion of the distal ends overlap a portion of the proximal ends; positioning conductive filler material adjacent to the overlapped portions of the distal and proximal ends; electrically coupling the proximal ends of the first plurality of electrodes to respective proximal ends of the second plurality of electrodes; molding insulative material about at least the electrode assembly and the splicing tube; and fusing the splicing tube with the insulative material from the molding and the lead body. | 10-28-2010 |
20100269340 | METHOD AND PROCESS FOR MANUFACTURING A TERMINAL BLOCK - A method of manufacturing a terminal block for a telecommunication cable comprising the steps of providing a preformed substrate member comprising a podium member, at least one electrical connector and at least one insulated electrical wire attached to an electrical contact positioned within the at least one electrical connector; placing the preformed substrate member in a mold; and injecting a dielectric material into the mold containing the podium member to form an overmolded terminal block, wherein the dielectric material covers the at least one insulated electrical wire and a portion of the electrical contact positioned within the at least one electrical connector. | 10-28-2010 |
20100281687 | METHOD AND SYSTEM FOR ELECTRICALLY COUPLIING AN INFORMATION CARRIER TO A CONTACT ELEMENT - The invention relates to a method and to a system for electrically coupling an information carrier to a contact element, wherein the information carrier has a conductor tract structure with a contact zone, which is embedded between two substrate layers, which are connect firmly to one another, and the contact element is brought into electrical contact with the contact zone. The information carrier is in this case first cut or stamped in such a way that the contact zone is exposed in an edge region and then the contact element is brought into electrical contact with the contact zone in this edge region. | 11-11-2010 |
20110010933 | Multi-functional tool and method of using same - A multi-functional tool includes a shaft having first and second ends and a first, implement extending from the first end. The tool further includes a second implement extending from the second end and including a base and first and second posts extending from the base. A gap is disposed between the first and second posts and adapted to receive a connector therebetween during locking of the connector to an electrical box. | 01-20-2011 |
20110010934 | SOLID COMPOSITION HAVING ENHANCED PHYSICAL AND ELECTRICAL PROPERTIES - A method of making a treating wash includes mixing brass granules with acetone, mixing carbon nanotube material, iron pyrite granules and copper granules in the acetone brass mixture, and straining the liquid from the remaining solid material. Methods of treating materials such as brass granules, iron pyrite granules, carbon nanotube material, and brass granules comprises washing the materials in the treating wash, followed by straining and drying the materials. | 01-20-2011 |
20110047795 | MEDICAL LEADS WITH SEGMENTED ELECTRODES AND METHODS OF FABRICATION THEREOF - In one embodiment, a method of fabricating a segmented electrode stimulation lead for implantation within a human patient for stimulation of tissue of the patient, the method comprises: providing a conductive ring, the conductive ring comprising an inner surface and an outer surface, the conductive ring comprising a plurality of grooves provided in the inner surface; electrically coupling a plurality of wires to the conductive ring; forming a stimulation assembly of the lead including the conductive ring and the plurality of wires; and grinding down the outer surface of the stimulation assembly of the lead at least until reaching the plurality of grooves to separate the conductive ring into a plurality of electrically isolated segmented electrodes. | 03-03-2011 |
20110197440 | MODULAR, ZONE-SPECIFIC MEDICAL ELECTRICAL LEAD DESIGN - A medical electrical lead configured to be coupled to a pulse generator in a cardiac rhythm management system. The lead comprises a proximal terminal connector configured for coupling the lead to the pulse generator, and a plurality of longitudinally arranged lead segments each configured to exhibit one or more predetermined physical characteristics based on the implantation location for the respective segment. The lead segments may be pre-fabricated as separate modules optimized for the operating environment and/or delivery requirements of the respective segments. The pre-fabricated modules are longitudinally arranged and joined to form the lead. | 08-18-2011 |
20110252642 | COAXIAL CABLE CONNECTOR INSULATOR AND METHOD OF USE THEREOF - A coaxial cable connector having an insulator is provided, the connector insulator including a body having a circumferential surface and a central longitudinal axis, the body having a first axial end and a second axial end and having a first reentrant cavity extending from the first end toward the second end, wherein at least a portion of a wall surface of the first reentrant cavity is oblique to a central axis of the body. A corresponding method of insulating a coaxial cable connector is disclosed. | 10-20-2011 |
20110271526 | CONNECTION SYSTEMS AND METHODS - A connector apparatus is provided. The apparatus can include a housing having at least a first aperture and a second aperture. The apparatus can further include a hollow, flexible member having a first end and a second end. The first end of the hollow, flexible, member can be non-detachably attached to the first aperture. The second end of the hollow, flexible, member can be detachably attached to the second aperture. The apparatus can also include a tensioning member disposed to bias the hollow, flexible, member towards the housing. | 11-10-2011 |
20110314671 | TOUCH SAFE FUSE MODULE WITH IMPROVED WIRING LUGS - A fuse module includes a wiring lug. The wiring lug includes a fuse clip member comprising a first pressure plate and a fuse clip, a lug box comprising a second pressure plate, and a securing member operably coupled to the lug box. The securing member operates between a first position and a second position to move the second pressure plate of the lug box with respect to the first pressure plate of the fuse clip member. The first pressure plate and the second pressure plate have a clamping relationship when the securing member is in the first position and have a non-clamping relationship when the securing member is in the second position. | 12-29-2011 |
20120011718 | SOLID COMPOSITION HAVING ENHANCED PHYSICAL AND ELECTRICAL PROPERTIES - A method of making a treating wash includes mixing brass granules with acetone, mixing carbon nanotube material, iron pyrite granules and copper granules in the acetone brass mixture, and straining the liquid from the remaining solid material. Methods of treating materials such as brass granules, iron pyrite granules, carbon nanotube material, and brass granules comprises washing the materials in the treating wash, followed by straining and drying the materials. | 01-19-2012 |
20120011719 | SOLID COMPOSITION HAVING ENHANCED PHYSICAL AND ELECTRICAL PROPERTIES - A method of making a treating wash includes mixing brass granules with acetone, mixing carbon nanotube material, iron pyrite granules and copper granules in the acetone brass mixture, and straining the liquid from the remaining solid material. Methods of treating materials such as brass granules, iron pyrite granules, carbon nanotube material, and brass granules comprises washing the materials in the treating wash, followed by straining and drying the materials. | 01-19-2012 |
20120110846 | COMPLIANT ELECTRICAL STIMULATION LEADS AND METHODS OF FABRICATION - In one embodiment, a neurostimulation lead for stimulating neural tissue of a patient, comprises: a lead body of insulative material; a plurality of electrodes; a plurality of terminals; a plurality of conductors, wherein the plurality of electrodes are electrically coupled to the plurality of terminals through the plurality of conductors; wherein the plurality of conductors are disposed in a helical manner in a repeating pattern of groups of conductors separated by gaps along a substantial length of the lead body, each gap being larger than an inter-conductor pitch within the groups of conductors; wherein the insulative material is a compliant material permitting elongation of the lead at low stretching forces and the insulative material of the lead body is fused through a substantial volume of the lead body and along a substantial length of the lead body. | 05-10-2012 |
20120144670 | METHOD FOR MANUFACTURING POWER SOCKET - A method for manufacturing a power socket is disclosed as that the power socket has at least two metal pins and an insulating seat member, wherein one end of each of the integrally-formed metal pin is defined as a solid round-column shaped contact section and the other end thereof is defined as a flat terminal section, the terminal section and the contact section are integrally formed in one piece. | 06-14-2012 |
20120159784 | Method and Apparatus for Making Electrical Connections - A device for making electrical connections is provided, along with a method of use. Other embodiments are also described herein. | 06-28-2012 |
20120174398 | ELECTRICAL CONNECTOR WITH A CANTED COIL SPRING - Electrical resistance between a male part and a female part through a canted spring is disclosed using mathematical modeling. Increase or decrease in resistance can be quickly analyzed by looking at the equivalence resistance and the number of contacts at the input side, the output side, or both. The number of contacts may also be created by forming a dimple having a discontinuity. | 07-12-2012 |
20120222302 | COAXIAL CABLE CONNECTOR HAVING ELECTRICAL CONTINUITY MEMBER - A method of assembling a coaxial cable connector comprising positioning a portion of a post within a body, the post including a flange; positioning a coupler, axially rotatable with respect to the post and the connector body, the coupler having a first end configured for coupling to an interface port and an opposing second end, and an internal lip having a first surface facing the first end of the coupler and a second surface facing the second end of the coupler; positioning a continuity member axially rearward of the second surface of the internal lip of the coupler; and wherein at least a portion of the continuity member is configured to extend about an external surface of the connector body and reside axially rearward of the coupler between the coupler and the connector body. | 09-06-2012 |
20120291278 | METHOD FOR PRODUCING CONNECTOR TERMINAL AND METHOD FOR ASSEMBLING MULTI-STAGE CONNECTOR - 2N (where N=1, 2, 3, . . . ) rod-shaped terminals, having overall lengths that vary in sequence, are formed out of a single metal plate by press punching. In the metal plate, rod bodies bridging between a first carrier and a second carrier are arranged so that the lengthwise direction of the rod bodies is perpendicular to the lengthwise direction of the metal plate, the 2N terminals are divided such that the first N in descending order of length are in a first group, and the remaining N are in a second group, the n-th shortest terminal and the n-th longest terminal are selected from the terminals of the first and second groups and combined one by one, and each combined pair of terminals is disposed in series over one rod body. | 11-22-2012 |
20120311860 | METHOD AND SET OF TOOLS FOR INSERTING FERRITE MEMBERS ONTO ELECTRICAL FILTER CONNECTORS - A method for the insertion of ferrite members onto pins acting as the contacts of an electrical filter connector. The ferrite members are oriented to a desired orientation by a known method. The ferrite members are preferably oriented in the vertical position for storage and are conveyed to a dynamic storage lock chamber equipped with a ferrite member stopping mechanism. A ferrite member distribution system incorporating a horizontally moving distribution plate individually releases the ferrite members from the lock chamber into the distribution system and inserts ferrite members onto the contacts according to a rate controlled by the operator. | 12-13-2012 |
20130019471 | METHOD FOR MANUFACTURING CONNECTOR - In order to avoid cost for accommodating a shield wire in a housing while bending, and smoothly and readily accommodate within the housing while the shield electric wire is insulated, a conductive housing | 01-24-2013 |
20130025122 | METHOD OF ASSEMBLING AN IMPLANTABLE MEDICAL LEAD HAVING PASSIVE LOCK MECHANICAL BODY TERMINATIONS - Disclosed herein is a method of assembling an implantable medical lead configured to receive a stylet. The lead is provided with a tubular insulation layer, an electrode is disposed on the tubular insulation layer, an electrical conductor is routed through the tubular insulation layer, and a stylet stop is inserted into a distal end of the tubular insulation layer. The electrical conductor is directly and mechanically connected to the stylet stop and is in electrical communication with the electrode. | 01-31-2013 |
20130111748 | CONTROLLED DISCHARGE CONNECTOR LEAD - When a hobby enthusiast has recharged the battery for a remote controlled vehicle, such as a scale facsimile automobile, boat, helicopter or airplane, the battery must be connected again to the vehicle drive system, to provide power. This operation is typically performed by connecting each lead of an electronic speed controller to each corresponding lead of the battery, through a removable barrel receptacle lead and a mating barrel plug lead respectively, attached to each corresponding lead. An improved connector lead is described herein that protects components that may be attached to either lead in a connection. The charge dissipates in a resistive member that is physically coupled to a conductive member to form at least in part a first lead. When an improved lead is connected to a mating lead, the connection initially provides a charge dissipation path through the resistive member, but subsequently provides a bypass, current carrying conductive path around the resistive member from one component to another. By making use of an improved connector, electrical components are protected, not only from hot-swap current, but also from electrostatic discharge in general. | 05-09-2013 |
20130152387 | SYSTEMS AND METHODS FOR COUPLING COILED CONDUCTORS TO CONDUCTIVE CONTACTS OF AN ELECTRICAL STIMULATION SYSTEM - An implantable lead includes an elongated member. A plurality of electrodes are disposed on a distal end of the elongated member. A plurality of terminals are disposed on a proximal end of the elongated member. Each of a plurality of conductors electrically couples at least one of the electrodes to at least one of the terminals. The plurality of conductors are disposed in the elongated member in a coiled configuration and have an end portion. Each of a plurality of constraining elements is disposed over at least one of the plurality of conductors such that the underlying at least one of the plurality of conductors is maintained in the coiled configuration. At least one of the plurality of electrodes or terminals is disposed over the constraining element and electrically coupled to at least one of the plurality of conductors. | 06-20-2013 |
20130318786 | CONCAVE CONNECTOR SUBSTRATE, METHOD OF MANUFACTURING THE SAME, MEASURING KIT, SENSOR SUBSTRATE, AND SENSOR SUBSTRATE INTERPOLATED CYLINDER - A method of manufacturing a concave connector substrate includes: a step of preparing a guide substrate having a guide/holding region that guides a plate-shaped connector to a connection position and a cut portion; a step of arranging and aligning two wiring substrates, each having wiring lines and through hole connection portions that are electrically connected to the wiring lines, with both surfaces of the guide substrate, and applying an adhesive to a predetermined region of the guide substrate to bond the wiring substrates to the guide substrate; a step of bending a portion of the wiring substrate toward the inside of the cut portion of the guide substrate and bringing the wiring lines disposed in the bent portion into pressure contact with the inside of the cut portion; and a step of removing a section inside the cut portion to form the guide/holding region. | 12-05-2013 |
20130340251 | RESONANCE MODIFYING CONNECTOR - A connector assembly is provided that is suitable for modifying the resonant frequency of ground terminals used in conjunction with high data rate signal terminals. Ground terminals may be interconnected with a conductive bridge so as to provide ground terminals with a predetermined maximum effective electrical length. Reducing the effective electrical length of the ground terminal can move the resonance frequencies of the connector outside the operational range of frequencies at which signals will be transmitted. | 12-26-2013 |
20140033531 | PUSH-PULL ELECTRICAL CONNETION FOR QUICK AND SAFE CONNECTION TO MULTIPLE UNITS - A plurality of tools, such as blow dryers, multiple size curling irons, multiple size flatirons, clipper and trimmers include a substantially shortened electrical cord, with the cord terminating in a connector, such as a male connector. The system also includes a wall cord, having one end that plugs into a standard wall outlet, and another end that is the counterpart of the tool's connector, for example the corresponding female connector. Thus, the system includes a plurality of tools, and at least one wall cord, with the tools all individually capable of connection with the wall cord. The overall length of the tool's cord is desirably approximately 10 feet. | 02-06-2014 |
20140041220 | MEDICAL IMPLANTABLE LEAD AND METHOD FOR MANUFACTURING OF SUCH A LEAD - A medical implantable lead has a header in a distal end, a fixation arrangement and an electrode arranged in the header. The lead also has a connector in a proximal end that includes a connector pin and is adapted to be connected to a monitoring and/or controlling device, and an inner coil, which extends inside an outer casing of the lead and is adapted to transmit electrical signals between the monitoring and/or controlling device and the electrode. The inner coil is attached to the connector pin. The inner coil extends through a bore inside the connector pin and is attached to the connector pin in its proximal end. A method for manufacturing such a lead is also provided. | 02-13-2014 |
20140053402 | ELECTRICAL CONNECTOR ASSEMBLY AND METHOD OF ASSEMBLY - A method is provided for assembling a connector assembly to a case. The case includes an inside surface defining an inside of the case, an outside surface defining an outside of the case, and an aperture therethrough providing communication from the inside surface to the outside surface. The connector assembly includes an outer connector having a body with a passage therethrough, an electromagnetic shield, and an inner connector with a terminal therein with a conductor extending from the inner connector in electrical communication with the terminal. The method includes positioning the outer connector on the outside of the case to align the passage of the outer connector with the aperture of the case. The method also includes positioning the inner connector on the inside of the case. The method also includes inserting the inner connector into the passage of the outer connector from the inside of the case. | 02-27-2014 |
20140068935 | METHODS FOR MAKING IMPLANTABLE LEAD AND MEDICAL DEVICE - A method for making an implantable lead is related. A pipe is provided. The pipe includes a first end portion, a second end portion opposite to the first end portion, and a middle portion connecting the first end portion and the second end portion. A flexible conductive layer is formed on the middle portion of the pipe. At least one contactor is applied on the first end portion of the pipe. At least one connector is applied on the second end portion of the pipe. At least one wire is placed in the pipe to electrically connect the at least one contactor and the at least one connector. | 03-13-2014 |
20140075752 | FEEDTHROUGH SYSTEM FOR IMPLANTABLE DEVICE COMPONENTS - The present subject matter provides feedthrough or interconnect systems for components of an implantable medical device and methods for their manufacture. A feedthrough system includes a wire or nailhead having a protruded tip. The wire or nailhead extends from an aperture in an encasement of a first component and is connected to a terminal conductor adapted to electrically connect to circuitry within the encasement. A ribbon wire has a distal end adapted to electrically connect to a second component and a proximal end having a pattern adapted to fit to the protruded tip of the wire or nailhead to provide for subsequent attachment of the ribbon wire to the nailhead. | 03-20-2014 |
20140101936 | METHOD AND PROCESS FOR MANUFACTURING A TERMINAL BLOCK - A method of manufacturing a terminal block for a telecommunication cable is disclosed, which includes providing a preformed substrate member comprising an elongated podium member having a plurality of wire receiving slots on an outer edge of the podium member and a plurality of electrical connector slots positioned within the podium member, wherein the plurality of wire receiving slots are arranged in pairs having a first and a second wire receiving slot, which are configured to receive one wire each of a pair of insulated electrical wires, an electrical connector in each of the plurality of electrical connector slots, each electrical connector having a pair of electrical contacts extending therefrom, and at least one insulated electrical wire attached to a first end of each of the electrical contacts; placing the substrate member in a mold; and injecting a dielectric material by a force of greater than | 04-17-2014 |
20140137403 | TEMPORARY STIMULATION LEAD WITH POLYMER ELECTRODES AND METHOD OF MANUFACTURE - A temporary medical lead in which stimulating electrical energy is transmitted to body tissue through the lead electrodes via ionic conduction within the hydrogel material is described. The hydrophilic hydrogel material consists of a porous structure into which conductive salt ions are diffused. In addition the structure of the hydrogel material can be loaded with a single or combination of therapeutic drugs which is elutable from the electrode. | 05-22-2014 |
20140144018 | IN-LINE SEALED ELECTRICAL CONNECTOR APPARATUS HAVING A CONNECTOR APPARATUS POSITION ASSURANCE DEVICE, AND LOCKING METHOD THEREOF - A connector apparatus position assurance device ensures that a male connector assembly and a female connector assembly of an in-line sealed electrical connector apparatus of the present invention remain engaged. The connector apparatus position assurance device has contiguous parts that engage various parts of a retention clip of the male connector assembly at different levels of insertion of the connector apparatus position assurance device into the male connector assembly. The insertion of the connector apparatus position assurance device is also accomplished at various stages (i.e., from pre-lock position to final lock position) depending on the insertion level of the female connector assembly into the male connector assembly. Consequently, the effect of the level of insertion of the female connector assembly ensures that the male and female connector assemblies remain engaged. | 05-29-2014 |
20140165395 | Assembly of Active Cardiac Electrical Lead - An active bipolar cardiac electrical is assembled by coupling an inner conductor coil to a connector pin to form an inner conductor assembly. The inner conductor assembly is threaded through a connector insulator. An insulating tubing is placed over the inner coil. A proximal end of the insulating tubing is sleeved over the distal extension of the connector insulator. An outer conductor coil is coupled to a ring connector to form an outer conductor assembly. The inner conductor assembly is threaded through the outer conductor assembly. The ring connector is sleeved on the distal extension of the connector insulator and over the insulator tubing. A proximal seal is sleeved over a socket end of the connector pin. The proximal seal is seated on the proximal extension of the connector insulator. | 06-19-2014 |
20140182129 | ELECTRODE TERMINAL CONNECTOR PRODUCING METHOD - A method is for producing an electrode terminal connector for electrically connecting together a positive terminal and a negative terminal of mutually dissimilar metals. The method includes pressing a first plate of a similar metal to the positive terminal to form a mounting hole in the first plate, pressing a second plate of a similar metal to the negative terminal to form a metallic member which is larger in diameter than the mounting hole, and inserting the metallic member into the mounting hole by press fitting to join the first plate and the metallic member together. The method further includes providing the metallic member with an intervening layer of metal having an ionization tendency between an ionization tendency of metal constituting the first plate and an ionization tendency of metal constituting the second plate, and the first plate and the metallic member are joined together via the intervening layer. | 07-03-2014 |
20140290059 | ANISOTROPIC CONDUCTIVE FILM AND METHOD OF MAKING CONDUCTIVE CONNECTION - An anisotropic conductive film includes: an insulation region having a planer shape and containing an insulating filler at a first content rate; and a plurality of conductive particle holding regions arranged in the insulation region, the conductive particle holding regions holding conductive particles and containing the insulating filler at a second content rate lower than the first content rate, the conductive particle holding regions being arranged discretely in a planar direction of the insulation region. A method of making conductive connection between a first terminal arranged on a first member and a second terminal arranged on a second member includes: preliminarily tacking the anisotropic conductive film to the first member; holding the first and second members such that the first and second terminals face to each other across the preliminarily tacked anisotropic conductive film; pressing the first and second members to each other; and heating the anisotropic conductive film. | 10-02-2014 |
20140298650 | Coaxial Connector Grounding Inserts - Axially compressible, F-connectors for conventional installation tools for interconnection with coaxial cable include grounding inserts for establishing electrical continuity despite inadequate nut tightening. The connector has a rigid nut, a post penetrating the nut, a tubular body, and an end cap. The conductive post coaxially extends through the connector, linking the nut and body. A post end penetrates the coaxial cable. Internal grounding inserts comprise a circular band coaxially engaging the post and portions on the band engaging the nut. Multiple radially spaced apart spring clips defined around the band grasp a flange portion of the post. The band is seated within a ring groove within the nut, making electrical contact. An alternative insert comprises a tubular band for contacting the post and an integral skirt abutting the nut's internal ring groove and contacting a portion of the socket to which the connector is coupled. | 10-09-2014 |
20140345131 | ELECTRICALLY CONDUCTIVE PIN CONNECTION - The present disclosure relates to an electrically conductive pin connection, including a first electrically conductive contact component which has a first hole, a second electrically conductive contact component which is in contact with the first electrically conductive contact component and which has a second hole, a connecting pin which has a pin head and which is guided through the first and second holes for connecting the first electrically conductive contact component and the second electrically conductive contact component, and a plurality of electrically conductive wires which are arranged in the holes between the edges of the holes and the connecting pin, wherein the electrically conductive wires are bent in such a way that they are clamped between the pin head of the connecting pin and the first electrically conductive contact component. | 11-27-2014 |
20140352145 | ELECTRICAL POWER CONNECTOR PREPARATION METHOD - An electrical power connector preparation method including employing a cold drawing technique to draw a metal round rod into a thin thickness conducting contact bar, stamping the thin thickness conducting contact bar to form a mating contact portion and a mounting portion, attaching the thin thickness conducting contact bar to a contact material strip, cutting off the thin thickness conducting contact bar, repeating the aforesaid steps to obtain a large amount of metal contacts at the contact material strip and then shaping the metal contacts, removing the shaped metal contacts from the contact materials trip and electroplating the shaped metal contacts, and then using an insert molding technique to mold electrically insulative terminal blocks on metal contacts so as to obtain electrical power connectors directly, or assembling electrically insulative terminal block and the respective metal contacts with one respective electrically insulative housing to form a respective electrical power connector. | 12-04-2014 |
20140366371 | ELECTRICAL PLUG-IN DEVICE WITH CLOSURE DEVICE - A plug-in device system has a closure unit blocking access to a first plug-in device element, for example a socket. The closure unit includes a rotary bezel which is coupled via a coupling to at least one shutter such that the rotation of the bezel effects a movement of the shutter from a closed position in an open position. Preferably, a locking assembly is additionally provided, which blocks movement of the rotary bezel and/or shutter in the closed position as long as no pressure is applied to the shutter. In addition, a safety device can be provided, which prevents the shutter from opening when a direct force is applied. | 12-18-2014 |
20140366372 | METHOD FOR MANUFACTURING OPTICAL MODULE - An optical module including a first optical coupler; a second optical coupler; a first optical waveguide; a second optical waveguide; a first electrode provided on the first optical waveguide; a second electrode provided on the second optical waveguide; a short electrode shorter than the first and second electrodes and provided on the second optical waveguide; and a first high-frequency connector and a second high-frequency connector; wherein, the short electrode provided on the second optical waveguide is coupled to the second high-frequency connector; and the first electrode provided on the first optical waveguide is coupled to the first high-frequency connector. | 12-18-2014 |
20150013157 | STRUCTURE AND METHOD FOR ASSEMBLING CONNECTOR - A connector assembling structure includes: a connector including a connector housing provided with terminal chambers, lance entry holes opening into the terminal chambers, and a retainer insertion hole opening into the terminal chambers, terminals inserted and housed in the terminal chambers, and a retainer inserted in the retainer insertion hole to lock the terminals housed in the terminal chambers and thereby to prevent the terminals from moving in the direction opposite to the insertion direction of the terminals; and a jig detachably provided on the connector housing, and including flexible locking lances which enter the terminal chambers via the lance entry holes in the state in which the jig is attached to the connector housing. | 01-15-2015 |
20150020385 | A SYSTEM FOR INSERTING AND REMOVING CABLES - A method for installing and removing a row of cables from a cable array is provided. The method includes providing an installation tool having a first body with a plurality of arms extending from one side. The plurality of arms being configured to receive a cable connector body, the plurality of arms including at least one first projection extending from one of the plurality of arms. The installation tool is moved onto a row of cables held coupled together by a bracket, each of the cables in the row of cables having a cable connector body. The connector bodies are engaged into receptacles and the bracket is moved with the at least one first projection. | 01-22-2015 |
20150068035 | SOLAR PANEL JUNCTION BOX CAPABLE OF INTEGRATINGWITH A VARIETY OF ACCESSORY MODULES, AND METHOD OF USE - A junction box is affixed to, and electrically coupled with, a solar panel. The junction box is configured to releaseably engage and disengage accessory modules, thereby allowing accessory modules to be replaced or exchanged easily. Accessory modules are electrically coupled with other accessory modules in the solar panel string. The furthest downstream accessory module is connected to a wire harness, which is connected to a central combiner box. | 03-12-2015 |
20150089807 | DOCKING STATION FOR A REMOVABLE PRINTER MECHANISM AND METHODS OF PROVIDING A REMOVABLE PRINTER MECHANISM - A docking station for a removable printer mechanism is provided, together with methods for providing a removable printer mechanism. The docking station may have a base with parallel side arms adapted to be fixed to an interior of a printer housing. Side walls may extend from each of the parallel side arms. The side walls may be adapted to guide the printer mechanism into a docked position in the printer and to removably fix the printer mechanism in the docked position. A bridge element may extend between the parallel side arms at a rear of the base. A clamping element may be fixed to the bridge element and be adapted to hold a printer-side cable connector in position to accept a corresponding cable connector of the printer mechanism. The printer mechanism may easily be slid into and out of the docking station for repair or replacement. | 04-02-2015 |
20150333466 | Electric Connector With A Terminal Interface - A method of assembling an electrical connector includes inserting an electric terminal with an attached wire to an initially inserted position in a wire opening defined by a connector body. The electric terminal is moved through the wire opening in an insertion direction relative to the connector body. The electric terminal is attached to the connector body in a seated position, wherein the wire is coaxial with the wire opening. | 11-19-2015 |
20150357783 | MICROWAVE CONNECTOR WITH FILTERING PROPERTIES - A microwave connector is provided. The microwave connector includes an outer conductor, an inner conductor disposed within the outer conductor and dielectric materials interposed between the outer conductor and the inner conductor, the dielectric materials including a non-dissipative dielectric material and a dissipative dielectric material. | 12-10-2015 |
20150364890 | WATERPROOF PUSH-IN WIRE CONNECTORS - A push-in wire connector having a sealant therein to enable formation of a waterproof electrical connection by axial insertion of a wire into a chamber contained an electrical conductor protected by the sealant with the electrical conductor displaceable into a waterproof electrical contact with the wire while both the conductor and the wire remain in the presence of the sealant. | 12-17-2015 |
20160028203 | SHIELDED SOCKETS FOR MICROPROCESSORS AND FABRICATION THEREOF BY OVERMOLDING AND PLATING - Shielded sockets for microprocessors and fabrication of shielded sockets by overmolding and plating techniques are described. In an example, a socket for a packaged semiconductor device includes a plastic housing having walls surrounding a cavity. A plurality of contact strips is disposed in the cavity and supported by one or more of the walls of the plastic housing. Each of the plurality of contact strips includes a plurality of contacts. Each of the plurality of contacts includes a vertical region overmolded with plastic, a contact portion, and a J-lead portion. The plastic is coated with a metal layer. | 01-28-2016 |
20160043521 | CONTROLLED DISCHARGE CONNECTOR LEAD - When a hobby enthusiast has recharged the battery for a remote controlled vehicle, such as a scale facsimile automobile, boat, helicopter or airplane, the battery must be connected again to the vehicle drive system, to provide power. This operation is typically performed by connecting each lead of an electronic speed controller to each corresponding lead of the battery, through a removable barrel receptacle lead and a mating barrel plug lead respectively, attached to each corresponding lead. An improved connector lead is described herein that protects components that may be attached to either lead in a connection. The charge dissipates in a resistive member that is physically coupled to a conductive member to form at least in part a first lead. When an improved lead is connected to a mating lead, the connection initially provides a charge dissipation path through the resistive member, but subsequently provides a bypass, current carrying conductive path around the resistive member from one component to another. By making use of an improved connector, electrical components are protected, not only from hot-swap current, but also from electrostatic discharge in general. | 02-11-2016 |
20160043535 | SYSTEM FOR INSERTING AND REMOVING CABLES - A method and system for installing and removing a row of cables from a cable array is provided. The method includes providing an installation tool having a first body with a plurality of arms extending from one side. The plurality of arms being configured to receive a cable connector body, the plurality of arms including at least one first projection extending from one of the plurality of arms. The installation tool is moved onto a row of cables held coupled together by a bracket, each of the cables in the row of cables having a cable connector body. The connector bodies are engaged into receptacles and the bracket is moved with the at least one first projection. | 02-11-2016 |
20160079723 | METHOD FOR ASSEMBLING AND INSTALLING A PORTABLE POWER CONNECTOR - A method for assembling and installing a power connector on a cable includes providing female and male connectors having a tapered insulator and a contact defining a set screw contact having at least one first radial aperture. A first set screw engages the at least one first radial aperture and a second set screw engages the at least one second radial aperture. Each of the first and second set screws define an outer surface and a bore extending at least partway therethrough. A first retaining screw engages the bore of the first set screw and corresponding aperture in the female connector. A second retaining screw engages the bore of the second set screw and corresponding aperture in the male connector. | 03-17-2016 |
20160134074 | HEADER CONTACT FOR AN IMPLANTABLE DEVICE - An implantable medical device includes a housing and a header mounted to the housing, the header including a header body having a bore with an electrical contact located within the bore, wherein the electrical contact includes a helical coil spring having an axial bore, wherein the axial bore of the helical coil spring is aligned with a longitudinal axis of the bore. | 05-12-2016 |
20160143157 | Metal Post Bonding Using Pre-Fabricated Metal Posts - A method includes forming a plurality of metal posts. The plurality of metal posts is interconnected to form a metal-post row by weak portions between neighboring ones of the plurality of metal posts. The weak portions include a same metal as the plurality of metal posts. A majority of each of the plurality of metal posts is separated from respective neighboring ones of the plurality of metal posts. An end portion of each of the plurality of metal posts is plated with a metal. The plurality of metal posts is disposed into a metal post-storage. The method further includes retrieving one of the metal posts from a metal-post storage, and bonding the one of the metal posts on a metal pad. | 05-19-2016 |
20160251221 | METHOD FOR INDIVIDUALLY REPLACING OZONE GENERATOR ELECTRODE ASSEMBLIES | 09-01-2016 |
20170237219 | CEILING FAN KIT AND ELECTRICAL CONNECTOR WITH MOUNTING METHOD | 08-17-2017 |