Class / Patent application number | Description | Number of patent applications / Date published |
029877000 | With bonding | 28 |
20090144975 | System for Producing Flexible Circuits - A method of producing a flexible circuit according to an embodiment herein include supplying a substrate layer film and supplying a cover layer film. A conductive ink is printed on at least a portion of the substrate layer film using an ink jet printing technique. The cover layer film is then laminated over the substrate layer film to provide the flexible circuit. Of course, many alternatives, variations, and modifications are possible without departing from this embodiment. | 06-11-2009 |
20100115770 | UNDERFILLING OF PRE-MOLDED COMPONENTS - A tubular lead component includes a sleeve having a lumen and one or more ports located on the sleeve including a bore extending through the sleeve and into the sleeve lumen. During assembly of a medical electrical lead, the tubular lead component is slid over the outer surface of the lead body to a desired location on the lead. The ends of the tubular lead body are sealed and a space is defined between the inner surface of the tubular lead component and the outer surface of the lead body. Medical adhesive is injected through the port(s) to substantially fill the space between the tubular component and the lead body. The adhesive is then cured. Any ports extending away from the sleeve are removed after the curing step. | 05-13-2010 |
20100287770 | MANUFACTURING AN ELECTRODE CARRIER FOR AN IMPLANTABLE MEDICAL DEVICE - According to one aspect of the present invention, there is provided a method for manufacturing an electrode carrier comprising one or more electrode contacts of an implantable medical device, comprising: coupling at least one electrode to a base plate, securing the base plate in a mold, injecting the mold with injection material at least partially around the at least one electrode coupled to the base plate, curing the injected material, and decoupling the at least one electrode from the base plate such that the cured injection material is separated from the base plate. | 11-18-2010 |
20110225821 | Process of electrically connecting electrodes of a photovoltaic panel - A process of electrically connecting electrodes of a photovoltaic panel is provided, comprising: applying a conductive adhesive film on the electrodes of the photovoltaic panel, wherein the conductive adhesive film comprising an insulating adhesive layer and electrical conductive particles distributed in the insulating adhesive layer; providing a metal strip along the conductive adhesive film; and performing an electrical connection process between the metal strip and the electrodes via the conductive adhesive film. | 09-22-2011 |
20120324728 | METHOD OF PRODUCING A PROXIMAL CONNECTOR END OF AN IMPLANTABLE LEAD - A connector for an implantable medical lead that is electrically and mechanically connectable to an implantable medical device, has a connector pin made of a first conducting material. A tubular insulator made of an insulating material concentrically surrounds at least a portion of the pin. A connector ring made of a second conducting material is concentrically positioned around at least a portion of the insulator. The insulator is connected to the connector ring by spark plasma sintering in the case of an active fixation lead, and is connected to the ring and the pin by spark plasma sintering in the case of a passive fixation lead. | 12-27-2012 |
20130333211 | NETWORK CONNECTOR COMPONENT, NETWORK CONNECTOR AND THEIR PREPARATION METHOD - A network connector preparation method for making a network connector by: employing a cold drawing technique to draw a metal rod into a thin thickness conducting contact bar, and then processing the thin thickness conducting contact bar to obtain a large amount of metal contacts each having a mating contact portion at one end and a bonding portion at an opposite end on the middle, and then using a contact material strip to carry the metal contacts for electroplating and quick installation in an electrically insulative terminal block for enabling the electrically insulative terminal block with the inserted metal contacts to be further assembled with an electrically insulative housing, an electrical module and a metal shield to form a network connector. | 12-19-2013 |
20140068936 | LEAD WITH BRAIDED REINFORCEMENT - A therapy delivery element configured for at least partial insertion in a living body. A braided structure surrounds the conductor assembly. A distal end of the braided structure is attached to an electrode assembly and a free floating proximal end is located near a connector assembly. An outer tubing surrounds the braided structure. The outer tubing includes a proximal end attached to the connector assembly and a distal end attached to the braided structure near the electrode assembly. A proximal tension force applied to the connector assembly acts substantially on the outer tubing and the conductor assembly and a proximal tension force applied to the free floating proximal end acts substantially on the braided structure. | 03-13-2014 |
20140190009 | STIMULATOR LEADS AND METHODS FOR LEAD FABRICATION - A lead for a stimulation device can include an array of electrodes with each electrode having a front surface and a back surface; a plurality of conductors; a carrier formed around the array of electrodes; and a biocompatible material that may be disposed over and/or joined with the carrier and the back surfaces of the electrodes. A conductor is attached to the back surface of each electrode. The carrier can be formed around the array of electrodes, but does not completely cover the front surface or back surface of the electrodes. | 07-10-2014 |
20140345132 | TERMINATION OF A SHIELD WITHIN AN IMPLANTABLE MEDICAL LEAD - A shield located within an implantable medical lead may be terminated in various ways at a metal connector. The shield may be terminated by various joints including butt, scarf, lap, or other joints between insulation layers surrounding the lead and an insulation extension. The shield may terminate with a physical and electrical connection to a single metal connector. The shield may terminate with a physical and electrical connection by passing between an overlapping pair of inner and outer metal connectors. The metal connectors may include features such as teeth or threads that penetrate the insulation layers of the lead. The shield may terminate with a physical and electrical connection by exiting a jacket of a lead adjacent to a metal connector and lapping onto the metal connector. | 11-27-2014 |
20150135530 | Method of Forming An Interface For An Electrical Terminal - A method of forming an electrical terminal includes the steps of: transferring a portion of electrically conductive material to a selected location on a surface of electrically conductive material stock; bonding the portion of electrically conductive material to the surface of the electrically conductive material stock; forming the portion of electrically conductive material to the surface of the electrically conductive material stock to define a conductive interface; and forming the electrical terminal from the electrically conductive material stock. | 05-21-2015 |
029878000 | Of fused material | 18 |
20120030944 | Method of Manufacturing a Dual Interface Separable Insulated Connector with Overmolded Faraday Cage - A dual interface separable insulated connector comprising a faraday cage molded over a bus bar for use in an electric power system and a method of manufacturing the same are provided. The faraday cage can be disposed within a semi-conductive shell. The configuration of the separable insulated connector can provide for easier bonding between the faraday cage and insulating material. Additionally, the configuration can eliminate or reduce the need to coat the bus bar with an adhesive agent and to smooth the metal bus bar to remove burrs, other irregularities, and sharp corners from the bar. Manufacturing the dual interface separable insulated connector can include molding a semi-conductive rubber faraday cage over a conductive bus bar, inserting the faraday cage into a shell, and injecting insulating material between the faraday cage and shell. | 02-09-2012 |
20130232787 | CONNECTOR, METHOD OF MANUFACTURING THE CONNECTOR AND APPARATUS FOR MANUFACTURING THE CONNECTOR - A connector comprises a base insulator, a plurality of elongated plate shaped contacts arranged on the base insulator, and a cover insulator arranged to hold the contacts in cooperation with the base insulator and welded to the base insulator, the base insulator is provided with a pair of openings arranged to face each other across each of holders and to intersect with the direction in which the holders are arranged. | 09-12-2013 |
20160377215 | METHOD FOR FORMING AN ELECTRICAL CONNECTION - A method for forming an electrical connection in a pipe for transporting a fluid. The pipe comprises an internal hollow tube and a heating layer comprising first fibres made of carbon. There are performed a groove-formation step in which a groove is formed in the heating layer, an interface-preparation step in which a junction layer is placed on the heating layer of the groove, and a placement step in which a connection strip comprising second fibres formed of a second electrically conducting material is wound on the junction layer. | 12-29-2016 |
029879000 | Metal | 15 |
20090172941 | LAND GRID ARRAY SITE GEOMETRY FOR ELECTRONIC ASSEMBLIES - Disclosed is a method, system, and computer program storage product for optimizing land grid array site geometry on an electronic assembly mounting. A first member including at least one convex region is aligned with a first portion of an electronic assembly mounting. A second member is aligned with a second portion of the electronic assembly mounting. The second portion includes at least one concave region corresponding to the convex region of the first portion. The second member includes a dome-shaped region having a predefined geometry. Heat is applied to at least one of the electronic assembly mounting, the first member, and the second member. Pressure is applied to at least one of the first member and the second member to reshape the convex region into a substantially flat surface. Applying pressure also reshapes the concave region into a geometry corresponding to the predefined geometry of the dome-shaped region. | 07-09-2009 |
20090241337 | Bump bonding method - In a method of bonding a first bump on a surface of a first member and a second bump on a surface of a second member, a tip portion of the first bump is provided with a projection having a hardness greater than a hardness of each of the first and second bumps. The first and second members are positioned with respect to each other such that the first and second bumps face each other. The tip portion of the first bump is brought into contact with a tip portion of the second bump by sticking the projection into the tip portion of the second bump. | 10-01-2009 |
20090293274 | Probe bonding method having improved control of bonding material - In assembly of probe arrays for electrical test, a problem can arise where a bonding agent undesirably wicks between probes. According to embodiments of the invention, this wicking problem is alleviated by disposing an anti-wicking agent on a surface of the probe assembly such that wicking of the bonding agent along the probes toward the probe tips is hindered. The anti-wicking agent can be a solid powder, a liquid, or a gel. Once probe assembly fabrication is complete, the anti-wicking agent is removed. In preferred embodiments, a template plate is employed to hold the probe tips in proper position during fabrication. In this manner, undesirable bending of probes caused by introduction or removal of the anti-wicking agent can be reduced or eliminated. | 12-03-2009 |
20100024213 | COPPER BONDING METHOD - A copper bonding compatible bond pad structure and associated method is disclosed. The device bond pad structure includes a buffering structure formed of regions of interconnect metal and regions of non-conductive passivation material, the buffering structure providing buffering of underlying layers and structures of the device. | 02-04-2010 |
20100299921 | Cable Consolidation with a Laser - The embodiments herein relate to a conductor cable for use in a lead and more specifically to methods and devices related to laser consolidation of the cable. The various conductor cable embodiments and methods provide for at least one end of the cable having a weld mass created by a laser welding process. | 12-02-2010 |
20110252643 | CONNECTOR INCLUDING ISOLATED CONDUCTIVE PATHS - An apparatus includes a pair of connectors, two or more conductive paths formed in each connector in the pair of connectors, and a shroud encompassing at least a portion of the pair of connectors. The pair of connectors includes a first connector and a second connector. The first connector is substantially more flexible than the second connector, and each connector in the pair of connectors includes a bulkhead. Each of the two or more conductive paths in each connector in the pair of connectors is electrically isolated from all other conductive elements in the pair of connectors. The shroud is located between the bulkheads and disposed about the pair of connectors when the pair of connectors are coupled together electrically. | 10-20-2011 |
20110314672 | AUTOMATED SOLAR CELL ELECTRICAL CONNECTION APPARATUS - The present invention generally relates to an automated solar cell electrical connection device that is positioned within an automated solar cell fabrication system. The automated solar cell electrical connection device includes a module and process for automatically attaching a junction box to a composite solar cell structure during the fabrication of a completed solar cell device. The automated solar cell electrical connection module may include a composite solar cell structure conveyor for positioning the composite solar cell structure, an adhesive dispense module for applying adhesive to the junction box, a flux dispenser for applying flux to electrical connection tabs in the junction box, a vision system for locating features on the composite solar cell structure, a robot for positioning the junction box onto the composite solar cell structure, a heating element to make electrical connections between the junction box and the solar cell device, a potting material dispensing assembly for dispensing potting material into the junction box, and a system controller for controlling the functions of the module. | 12-29-2011 |
20130167373 | Methods for Stud Bump Formation and Apparatus for Performing the Same - An apparatus includes a spool configured to supply a wire, a cutting device configured to form a notch in the wire, and a capillary configured to bond the wire and to form a stud bump. The apparatus is further configured to pull the wire to break at the notch, with a tail region attached to the stud bump. | 07-04-2013 |
20130227840 | NETWORK COMMUNICATION CONNECTOR FABRICATION METHOD - A network communication connector fabrication method for making network communication connectors is performed by: employing a cold drawing technique to repeatedly draw a metal round rod into a thin thickness conducting contact bar, stamping one end of the thin thickness conducting contact bar into a mating contact portion, stamping the thin thickness conducting contact to form an interference portion and a bonding portion, cutting off the thin thickness conducting contact bar subject to a predetermined length, repeating the above steps to obtain multiple metal contacts, electroplating the metal contacts, setting the metal contacts in two contact material strips and inserting the metal contacts in a mold, and then using an injection molding technique to mold an electrically insulative terminal block on the interference portions of the metal contacts to form a semi-finished product for making a network communication connector. | 09-05-2013 |
20140101937 | ELECTROMAGNETIC CONTACTOR MANUFACTURING METHOD - An electromagnetic contactor manufacturing method includes a step of forming an arc extinguishing chamber connection portion by simultaneously brazing a fixed terminal and a pipe penetrating and fixed to a tub-shaped arc extinguishing chamber, and a tube portion of a first connection member in communication with an open end portion of the arc extinguishing chamber; a step of forming a cap connection portion having a flange portion extending outward in a radial direction from an open end of a bottomed tubular cap; and a step of disposing a flange portion of the first connection member and a flange portion of a second connection member in close contact with a base plate in which an aperture hole is formed, and welding each of the flange portions to the base plate so that the arc extinguishing chamber connection portion and the cap connection portion are in communication through the aperture hole. | 04-17-2014 |
20140237818 | METHOD FOR PRODUCING AN ELECTRIC CONTACT SUPPORT - A method for the production of an electric contact carrier includes producing a basic profile from a basic material. A contact material is applied on a contact accepting area of the basic profile. The contact material is formed into a contact of the contact carrier. Then, the contact carrier is removed from the basic material. | 08-28-2014 |
20160003870 | Manufacturing a Low Profile Current Measurement Connector - A current measurement connector may include a first part and a second part. Each part may include a mount and a joint. The first and second part may be joined via the respective joints through a current transformer interposed between the first and second parts. The respective mounts may be configured to receive a current from a current source and pass the received current through the current transformer via the first and second parts inducing a current in the current transformer. The induced current may be useable to measure the current from the current source. Methods for fabricating the current measurement connector may include die casting the first and second parts and press fitting the first and second parts at the respective joints through the current transformer. Methods for use may include withstanding a fault current pulse and dissipating heat associated with the pulse via the first and second parts. | 01-07-2016 |
20160036192 | METHODS FOR MAKING A LASER CORE - Methods for making laser cores are provided. In one method, a header is provided with a base having a stem extending therefrom and an electrically conductive terminal extending through a sealed opening in the base, a conductive surface that is electrically connected a laser is positioned between the terminal and the stem to create a sized overlap area between the terminal and the conductive surface; and a conductive mass is formed between the terminal and to the conductive surface having a cross-sectional area that is based upon the size of the overlap area. | 02-04-2016 |
20160050767 | TIN FUSION JOINING FOR ROBUST INTEGRATION OF ELECTRICAL COMPONENTS WITH AXIAL LEADS - A method of joining a first tin-plated electrical component to a second tin-plated electrical component, and components joined to exhibit reduced stress levels at the joined location. The method includes defining a pocket in the second component that is shaped to accept a portion of the first component, placing the portion of the first component substantially within the pocket to define an interfacial region, and using a resistance welder to both form a solid-state diffusion bond along at least a portion of the interfacial region and fill a substantial remainder of the interfacial region with melted tin plating from one or both of the first and second components. | 02-18-2016 |
20160064885 | METHOD FOR CONNECTING INSULATED WIRES - A method for connecting a plurality of insulated wires to each other is provided. Each of the insulated wires has a conductor portion and an insulating coating covering the conductor portion. The insulating coating is made of an insulating material. The method includes stripping the insulating coating of each of the insulated wires to expose the conductor portion such that the insulating coating is removed from a section of the insulated wire along a direction in which the insulated wire extends and at a location away from an end portion of the insulated wire, and connecting the conductor portions of the insulated wires. The connecting includes crimping a crimp joint terminal onto the exposed conductor portions to join the exposed conductor portions, and after the crimping, welding the conductor portions by applying pressure and electric current or ultrasonic vibration to the crimp joint terminal. | 03-03-2016 |