Class / Patent application number | Description | Number of patent applications / Date published |
029860000 | By metal fusion bonding | 14 |
20080222887 | Stacked module connector - A method for soldering a soft wire to a printed circuit board conveniently includes the following step: providing a bracket having a through hole and an enameled wire; fastening the enameled wire to the bracket with the conductive wire crossing over the through hole; providing a printed circuit board formed with conductive pads thereon and setting the printed circuit board onto the bracket with the pad aligned to the through hole so that a portion of the magnet wire crossing the through hole lies on the conductive pad; providing a soldering tool having a thermal contact portion and inserting the thermal contact portion into the through hole to solder the magnet wire to the conductive pad. | 09-18-2008 |
20100281686 | METHOD OF MANUFACTURING A WIRING MATERIAL - A wiring material is provided by electrically connecting a connecting terminal with two single line conductors arranged in parallel. The connecting terminal is provided with a tube-shaped section for storing two single line conductors, the two single line conductors are inserted into the tube-shaped section, resistance welding is performed by carrying electricity from the external of the tube-shaped section in a status where the tube-shaped section and the single line conductors are mutually brought into contact, and the connecting terminal is electrically connected with the two single line conductors. | 11-11-2010 |
20110113626 | Cable and Connector Assembly Apparatus and Method of Use - A method for using a cable assembly apparatus for coupling a connector to a cable having a base supporting an interface pedestal dimensioned to receive the connector; an inductor coil coupled to an inductor coil actuator operable to move the inductor coil between a load position and an operation position proximate the interface pedestal; a grip clamp operable by a clamp actuator to move between an open position and a closed position above the interface pedestal; and a temperature sensor configured to read a temperature proximate the interface pedestal. The method includes using the apparatus for retaining the pre-assembled connector and cable in an aligned orientation for controlled heating by the induction heater to heat a solder preform to solder the connector to an outer conductor of the cable. | 05-19-2011 |
20120036714 | Electrical Contact Assembly and Method of Manufacture - An electrical contact assembly has a plurality of formed elongate closed seam tubular elements attached to a carrier with each of the elongate tubular elements attached to the carrier via a tab. Scored creases are formed in the tabs for separating the elongate tubular elements from the assembly and scored creases are formed in the carrier for defining carrier strips. The carrier strip had a plurality of grouped elongate tubular elements. The electrical contact assembly is placed in a crimping die where at least one or more wires are inserting into selected elongate tubular elements. Pressure is applied to least one or more of the selected elongate tubular elements to produce bulk material deformation along a substantial portion of the elongate tubular elements to crimp the elongate tubular elements to the wires as electrical contacts. | 02-16-2012 |
20120159783 | Conductor Wire Connecting Method, and Connecting Terminal, Stator, and Rotary Electric Machine - After melted enamel coating is discharged, a fusion process of electrical wire-to-wire connection is carried out inside a crimping connector. In the conductor connection method based on the fusion process, a plurality of enamel-coated conductor wires are inserted in the crimping connector prior to the start of the fusion process. Further, a temporary crimping process that provides the crimping connector a temporary crimping by mechanical pressurizing means is also performed. Addition of force at both end parts or either end part of the cross-section orthogonal to the axis of the above crimping connector may cause expansion, which needs to be suppressed with external force. At the same time, the cross-sectional areas corresponding to both end parts or either end part should preferably be as small as possible. The temporary crimping is applied to the crimping connector for this purpose. | 06-28-2012 |
20130247374 | METHOD OF FORMING A CRIMP-THROUGH CRIMP CONNECTOR FOR CONNECTING A CONDUCTOR CABLE TO AN ELECTRODE - An implantable cardiac electrotherapy lead is manufactured by providing an electrode on a tubular body of the lead, forming a crimp connector from a tubing, forming at least one splice opening at the tubing, receiving and end of a cable conductor in a cavity of the crimp connector, and welding an outer surface of the crimp connector to an edge of the electrode. In a post-crimp position, proximal and distal ends of an inner surface of the tubing contact an insulation jacket of the cable conductor and a sharp edge of the at least one splice opening penetrates the insulation jacket and contacts a conductive core of the cable conductor to provide electrical communication between the crimp connector and the cable connector. | 09-26-2013 |
20140144015 | METHOD FOR ELECTRICALLY CONDUCTIVELY CONNECTING A CONTACT PIECE TO AN ELECTRICAL CONDUCTOR, AND CORRESPONDING ARRANGEMENT - A method is provided for electrically conductively connecting a contact part on the basis of copper to an electrical conductor composed of a plurality of individual wires containing aluminum. A cup-shaped contact part which has a bottom and a cylindrical sleeve, which is integrally connected to the bottom and protrudes from the bottom, is pushed with tight contact of the sleeve against the conductor to such an extent until the end face of the conductor rests against the bottom of the contact part. Consequently, at least one rotating tool ( | 05-29-2014 |
20140165394 | METHOD FOR ELECTRICALLY CONDUCTIVELY CONNECTING A STRANDED CONDUCTOR TO A CONTACT ELEMENT - A method of electrically conductively connecting a stranded conductor, which has a plurality of wires containing aluminum, to an electrical contact element, by means of which any oxide layers which may surround the wires are destroyed, and by means of which a component consisting of metal is fastened to the conductor by crimping. The stranded conductor is electrically conductively connected at its end to the contact point provided on the contact element while destroying the oxide layers, and the structural component integrally connected to the contact element and acting as a mechanical holding element is crimped around the stranded conductor at a distance from the contact point. | 06-19-2014 |
20140182127 | METHOD FOR WELDING A CABLE TO A TERMINAL AND THE TERMINAL OBTAINED THEREFROM - The invention is a welding method for welding a cable to a terminal, the cable comprising multiple strands and an insulating sheath around the multiple strands, the method comprising the steps of removing the insulating sheath from an end section of the cable, pressing the multiple strands to the terminal with a pressing mechanism, and making at least one welding connection between the multiple strands and the terminal by applying at least one pulse of a laser onto the end section of the cable, and removing the pressing mechanism. | 07-03-2014 |
20140182128 | INDUCTION BONDING - The described embodiment relates generally to the field of inductive bonding. More specifically an inductive heater designed for use in assembling electronics is disclosed. A number of methods for shaping a magnetic field are disclosed for the purpose of completing an inductive bonding process without causing harm to unshielded adjacent electrical components. | 07-03-2014 |
20140345128 | METHOD FOR ELECTRICALLY CONNECTING A CABLE TO A CONTACT ELEMENT - A method for electrically connecting a strand of an electrical conductor to a contact element, The strand includes a plurality of single wires. The method includes dividing the strand into at least a first part including a first group of the single wires and a second part including a second group of the single wires, welding the first group of the single wires to a first contact surface of the contact element, and welding the second group of the single wires to the first group of the single wires or to a second contact surface of the contact element, the second contact surface being opposite to the first contact surface. | 11-27-2014 |
20150082629 | CONNECTING-AND-FIXING METHOD FOR CABLE - A high-frequency transmission line includes an insulator as a base material, and also includes linear conductors configured to transmit signals. Through holes are provided at positions corresponding to the positions of the linear conductors. The high-frequency transmission line is arranged on a connector in a state in which the positions of the bottom ends of the through holes are respectively aligned with the positions of signal terminals provided on the connector. A conductive bonding material provided at the top ends of the through holes is fluidized when heat is applied thereto, and flows to the bottom ends of the through holes due to surface tension or capillarity. As a result, the linear conductors are electrically connected to the signal terminals respectively. | 03-26-2015 |
20150101189 | SOLDERED CONNECTOR AND CABLE INTERCONNECTION METHOD AND APPARATUS - In a method for attaching a connector to a coaxial cable a solder perform is placed upon an end of an outer conductor of the cable. A connector body of the connector is seated upon an interface pedestal and the end of the outer conductor is inserted into a bore of the connector body against the interface pedestal. The outer conductor, the connector body and the interface pedestal contribute sidewalls to form a solder cavity, and the solder perform is heated. A seat may be applied to the interface pedestal to provide a thermal barrier and/or enhanced seal characteristics that are cost efficiently replaceable upon degradation. | 04-16-2015 |
20150107103 | Wire Termination System - A wire termination system for efficiently connecting a plurality of wires to an electrical connector. The wire termination system generally includes a heat applicator device that selectively applies heat to a specific connector pin within an electrical connector so that a corresponding wire may be soldered to the connector pin. The heat applicator device applies heat to a first connector pin for a period of time for soldering of a first wire to the first connector pin and then the heat is removed. The heat applicator device then applies heat to the next connector pin for soldering a next wire to the next connector with the process continuing until all of the wires are soldered to their corresponding connector pins on the electrical connector. | 04-23-2015 |