Abstract: An electronic assembly comprises a housing, a cover for the housing, a printed circuit board receivable in the housing, and a compliant pin header assembly. The compliant pin header assembly is mountable in the housing by inter-engaging features on the header assembly and the housing. The compliant pin header assembly has compliant pins for engaging corresponding features on the printed circuit board to connect the compliant pin header assembly electrically to the printed circuit board. The cover, when the electronic assembly is assembled, engages the housing and also engages the printed circuit board at a location spaced from an outer periphery of the printed circuit board.

Abstract: A socket connector (100) includes an insulating housing (1), a number of terminals (2) retained in the insulating housing (1), a metallic shell (4) covered the insulating housing (1), an insulative cover (5) covered the metallic shell (4) and the insulating housing (1) by over molding, and a sub-shell (6) covered the insulative cover (5). The sub-shell (6) includes a base part (61) and a plurality of elastic arms (62) extending downwardly from the base part (61), the elastic arms (62) and the terminals (2) flexibly connect with a printed circuit board (PCB) therefore, the socket connector (100) has good connection between terminals (2) and PCB and is convenient to be disassembled from the PCB when repair.

Abstract: A cable termination device of the dry type, including an insulator housing with an upper end and a lower end and having a hollow interior, which lower end has an opening for insertion of the cable. The device further includes a stress controller device located inside the insulator housing and adapted to be mounted on a high voltage cable, and an electrically insulating gel filling at least part of the hollow interior of the insulator housing and surrounding at least part of the stress controller device. Further, the stress controller device extends from the lower end of the insulator housing and into the housing where it has a free end, whereby a space is formed between the stress controller device and an inner wall of the insulator housing.

Abstract: An implantable lead for stimulating patient tissue includes a lead body. A jacket is disposed over at least a portion of a length of the lead body. The jacket has an outer surface and an opposing inner surface. At least a portion of the outer surface of the jacket forms at least a portion of an outer surface of the lead. At least a portion of the inner surface of the jacket is open to the lead body. The jacket defines apertures each extending completely through the jacket. Electrodes are disposed along a distal end of the lead body. Terminals are disposed along a proximal end of the lead body. Conductors electrically couple the electrodes to the terminals. Conductor insulation is disposed over each of the conductors. At least a portion of the conductor insulation is in fluid communication with the local environment external to the lead via the apertures.

Abstract: A waterproof flat cable connector includes a flexible flat cable which has a conductive wire and an insulative film which covers the conductive wire, a terminal which is connected to the conductive wire, an insulative covering part integrally molded with the flat cable to cover a junction part of the conductive wire and the terminal, and a connector housing which is fitted with a connection mating connector to connect the terminal with a connection mating terminal. The connector housing is integrally molded with a surface of the insulative covering part. The insulative covering part has a protruding part which protrudes from an attached side end of the connector housing, which is at a side attached to the flat cable, toward an extending direction of the flat cable.

Abstract: An electronic assembly comprises a housing, a cover for the housing, a printed circuit board receivable in the housing, and a compliant pin header assembly. The compliant pin header assembly is moimtabie in the housing by inter-engaging features on the header assembly and the housing. The compliant pin header assembly has compliant pins for engaging corresponding features on the printed circuit board to connect the compliant pin header assembly electrically to the printed circuit board. The cover, when the electronic assembly is assembled, engages the housing and also engages the printed circuit board at a location spaced from an outer periphery of the printed circuit board.

Abstract: The present invention is intended to provide a bus bar set that has excellent heat dissipation performance and mounting workability and prevents excessive heat generation due to an electrical connection failure, even when a cross section area of a conductive body is large. A bus bar set has a plurality of multilayer bus bars and an insulating member. The multilayer bus bars each include an intermediate portion having a plurality of layered plate-shaped conductive bodies and terminal portions having conductive bodies extending from two ends of the intermediate portion and connected to other members. The insulating member is composed of a flexible insulating body having a flat external shape, and covers and integrally connects the intermediate portions of the plurality of multilayer bus bars aligned in parallel with gaps therebetween on one plane.

Abstract: 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.

Abstract: A rechargeable battery socket and the manufacturing method of making the same is disclosed. The rechargeable battery socket includes an insulating housing defining a number of terminal channels, a number of terminals received in the insulating housing, and a shell assembled to one side of the insulating housing. Each terminal includes a contacting portion received in corresponding terminal channel and a tail extending out of the insulating housing. Each terminal channel provides a pair of ribs on two opposite inside faces thereof. The contacting portion of the terminal cooperates with the rib to thereby secure the terminal in the insulating housing.

Abstract: A method for providing and connecting a first contact area to at least one second contact area on a substrate, in particular in the case of a semiconductor component, which includes providing at least one insulation layer on the substrate, forming an opening in the at least one insulation layer over at least one insulation trench of a first contact area, applying at least one metal layer to the insulation layer, forming the first and second contact areas in the at least one metal layer and at least one printed conductor between the two contact areas, and forming the insulation trench.

Abstract: Strain relief loops are forced by being formed into medical leads such that a body of the lead imposes a force to regain the loop if the loop has been disturbed. Because the strain relief loop is forced, the surgeon implanting the medical lead is not required to create the strain relief loop as a step in the implantation procedure. Forcing the strain relief loop ensures that the strain relief is achieved. The forced strain relief loop also ensures that the loop is present to reduce heating at the electrodes of the medical caused by exposure to excessive radiofrequency energy. The forced strain relief loop may be created by heating the lead body while held in the loop configuration by a mold to cause the loop configuration to persist once the medical lead is removed from the mold.

Abstract: 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.

Abstract: An electrical power connector fabrication method includes employing a cold drawing technique by using a series of dies to repeatedly draw a metal round rod into a thin thickness conducting contact bar, processing one end of the thin thickness conducting contact bar into a mating contact portion, stamping a part of the thin thickness conducting contact to form a mounting portion, cutting off the thin thickness conducting contact bar to obtain a finished metal contact formed of the mounting portion and the mating contact portion, repeating the aforesaid steps to obtain a large amount of metal contacts, attaching individual metal contacts to respective locating notches of a contact material strip, using an injection molding technique to mold electrically insulative housings on the metal contacts to form a number of electrical power connectors at a time, and then removing the contact material strip from the metal contacts.

Abstract: An electrical connector including electrical terminals, and a housing. The housing includes a first housing member and a second housing member. The second housing member includes terminal receiving areas which house the electrical terminals. The second housing member includes projections into the terminal receiving areas to limit forward movement of the electrical terminals in the terminal receiving areas. The first housing member includes a plurality of projections respectively extending into each of the terminal receiving areas to limit rearward movement of the electrical terminals in the terminal receiving areas. The electrical terminals float in the terminal receiving areas between the projections of the first housing member and the projections of the second housing member.

Abstract: Various pattern transfer and etching steps can be used to create features. Conventional photolithography steps can be used in combination with pitch-reduction techniques to form superimposed, pitch-reduced patterns of crossing elongate features that can be consolidated into a single layer. Planarizing techniques using a filler layer and a protective layer are disclosed. Portions of an integrated circuit having different heights can be etched to a common plane.

Abstract: A method for producing a connector has first to fifth processes. In the first process, a contact unit having a plurality of contacts and a tying part, is formed with the contacts tied at each axial direction middle part of the contacts by the tying part and with the contacts arranged parallel to each other. In the second process, a plating layer is formed on a part of the contact unit by soaking the contact unit in a plating bath from an axial direction one end side of the contact unit to an axial direction middle part of the tying part. In the third process, the contacts are isolated by cutting the tying part. In the fourth process, a part where the plating layer is formed, of the contact is inserted into a hole of a circuit board. In the fifth process, the contacts are soldered to the circuit board.

Abstract: A storage apparatus including a circuit board, a control circuit element, a terminal module and a storage circuit element is provided. The circuit board includes a first surface, a second surface, a connect part, openings, metal contacts and metal units. The openings pass through the circuit board from the first surface to the second surface and the metal contacts are exposed on the first surface. The terminal module is disposed on the first surface and has elastic terminals and each of the elastic terminals has a first contact part and a second contact part. The first contact parts respectively contact with the metal contacts and the second contact parts respectively pass through the openings to protrude from the second surface. The metal units are disposed on the second surface and located between the openings and the connect part. Accordingly, the volume of the storage apparatus can be reduced.

Abstract: An actuator manufacturing method includes alternately stacking a plurality of dielectric elastomer layers and a plurality of conductive rubber layers along the direction of thickness to form a sheet, and wrapping the sheet formed about a core to form a rolled sheet. When the sheet formed in the step of alternately stacking is wrapped about the core, the sheet is formed by the dielectric elastomer layers and the conductive rubber layers. Therefore, even if the dielectric elastomer layers in the sheet are made to be thin, the thickness of the entire sheet is prevented from being excessively thin.

Abstract: A coupon board is cut out together with a printed wiring board from a sheet material in which a solder resist film is formed on a surface of a glass cloth fiber. The coupon board is for evaluating characteristics of the printed wiring board. The coupon board includes a region on which the solder resist film is not formed, and which extends parallel with one side of the printed wiring board.

Abstract: Busbars that are disposed so as to correspond to respective phases of a stator coil each include: a base portion that is formed so as to have an incomplete annular shape; external electric power supply terminals that extend radially inward from a first circumferential end of the base portion; and a plurality of coil connecting terminals that each extend radially outward from the base portion, that are arranged in a row so as to have a predetermined spacing in a circumferential direction of the base portion, and that are connected to coil terminals of concentrated winding coils, and the busbars are held by the electrically insulating holder such that the external electric power supply terminals extend radially inward so as to pass over omitted portions of the base portions of the busbars that are positioned radially inside the electrically insulating holder.

Abstract: The present invention provides technology with high production efficiency for an elastic connector that electrically connects two connection target members. The technology enables an initial product to be quickly completed with a low initial cost, in correspondence to any distance between the connection target members and any angle formed between them. An elastic connector was obtained by forming a major-axis columnar body, in which a conductive part was formed by cross linking and hardening (solidifying) conductive members inside a tube-like part formed of an insulative rubber tube, and then cutting the major-axis columnar body with a cutting blade along a cutting line, which is in a direction crossing the axis of the major-axis columnar body, to shorten the major-axis columnar body. This elastic connector eliminates the need to create a new metal mold in its manufacturing.

Abstract: A method of forming a connector with isolated conductive paths can include using a flexible member. An example of a method of forming a connector with isolated conductive paths can include forming a bulkhead assembly including two-or-more isolated bulkhead conductive paths. A non-bulkhead assembly can be formed including two-or-more isolated non-bulkhead conductive paths. A flexible coupling can be formed between each of the two-or-more isolated bulkhead conductive paths and each of the two-or-more isolated non-bulkhead conductive paths to form a flexible connector. Another example method can include assembling, at least partially, a connector having a groove, securing a flexible member in the groove, and flowing solder into the flexible member in the groove. Additional methods and associated apparatus and systems are disclosed.

Abstract: A socket housing and method of making the socket housing. A plurality of dielectric layers are printed with a plurality of recesses on a substrate. The dielectric layers include at least two different dielectric materials. A sacrificial material is printed ted in the recesses. The assembly is removed from the substrate and the sacrificial material is removed from the recesses. At least one contact member is located in a plurality of the recesses. Distal ends of the contact members are adapted to electrically couple with circuit members.

Abstract: Apparatus, systems, and methods associated with a disconnect pullout handle for selectively conducting power between jaw connectors are provided. In one embodiment, the disconnect pullout handle includes a molded handle base and a conductive blade configured for frictional engagement with the jaw connectors to provide a current path therebetween. The conductive blade is molded integrally into the blade retaining finger.

Abstract: An electrical connector (100) for electrically connecting an IC package with a substrate includes a number of conductive contacts (4), a number of grounding terminals (5), an insulative member (32) made of insulation materials locates around the conductive contacts (4) with insert-molded method and an electrical member (1) made of electrical resin locates around the insulative member (32) and the grounding terminals (5) with insert-molded method, the conductive contacts (4) are insulated from the electrical member (1) and the grounding terminals (5) are electrically connected with the electrical member (1).

Abstract: The present invention relates to an elongated male connector (1), for a medical device, and a method of producing the male connector (1). The male connector (1) has a longitudinal axis (2) and comprises a plurality of conductive members (3), each having an outer contact surface (4) and being separated from each other by insulating members (5). The conductive and insulating members (3, 5) are disposed along the male connector (1), such that the outer contact surfaces (4) are arranged essentially at the same surface level, and that each of the conductive members (3) has an elongated extension along the longitudinal axis (2) of the male connector (1). Each conductive member (3) is provided with an insulated microrod (6) extending at least partially along the length of the male connector (1), and the conductive members (3) are hollow and have an essentially cylindrical cross-section and form, together with the insulating members (5), a self-supporting male connector (1) having no core wire.

Abstract: A method of producing a low height connector, includes: removing an insulating covering from a first part of an electric wire; forming the electric wire into a predetermined shape in which the first part of the electric wire is bent; joining a terminal to a second part of the electric wire; and molding the electric wire to surround at least the first part and the second part of the electric wire with a housing to obtain the low height connector.

Abstract: Circuit boards, microelectronic devices, and other apparatuses having slanted vias are disclosed herein. In one embodiment, an apparatus for interconnecting electronic components includes a dielectric portion having a first surface and a second surface. A first terminal is disposed on the first surface of the dielectric portion for connection to a first electronic component. A second terminal is disposed on the second surface of the dielectric portion for connection to a second electronic component. The apparatus further includes a passage extending through the dielectric portion along a longitudinal axis oriented at an oblique angle relative to the first surface. The passage is at least partially filled with conductive material electrically connecting the first terminal to the second terminal.

Abstract: An implantable, substantially isodiametric, low resistance implantable lead having at least one electrode positioned in a stimulation/sensing portion of the lead as well as a method of manufacturing the same. At least the stimulation/sensing portion is unitized through partially surrounding and supporting insulation and conductive element(s) of the stimulation/sensing portion with a fused matrix of material having mechanical properties consistent with a body of the lead.

Abstract: In a sensing unit according to the present invention, a spring portion having a support portion and a movable portion is conductive. A signal of a sensor portion provided on the movable portion of the spring portion is transmitted via the spring portion. Hence, the sensing unit according to the present invention has a simple constitution with a small number of components, and a wire does not necessarily have to be provided for each sensor portion. As a result, a reduction in manufacturing cost, simplification of the manufacturing process, and so on are achieved.

Abstract: 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.

Abstract: A connector having a plurality of terminals that are integrally incorporated in a connector housing, in a given arrangement, with a high degree of accuracy. The connector includes a prealigner having a plurality of terminal holding recesses, a plurality of terminals fitted into and held in the terminal holding recesses in a given alignment, and a housing main body molded so that the prealigner is interposed in the housing main body as an insert element.

Abstract: In one embodiment, a process, for fabricating a medical lead for stimulation of tissue of a patient, comprises: providing a plurality of wires; increasing an exterior surface area of each wire of the plurality of wires; arranging the plurality of wires angularly around a longitudinal axis; extruding polymer material of the plurality of wires; forming a lead body with a proximal end and a distal end after performing the extruding; and forming a plurality of terminals at a proximal end of the lead body; forming a plurality of segmented electrodes at a distal end of the lead body.

Abstract: A medical electrical lead that includes a lead body and at least one tubular electrode sub-assembly positioned over and attached to the external surface of the lead body. The lead body includes at least one elongated conductive element, such as a cable, that is electrically connected to a coiled electrode of the tubular electrode sub-assembly. The tubular electrode sub-assembly includes a tubular liner and an electrode embedded in the outer surface of the liner. In some embodiments, only a portion of the inner surface of the tubular liner is attached to the lead body which may potentially improve flexibility of the medical electrode lead in the area occupied by the tubular electrode sub-assembly.

Abstract: 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.

Abstract: In a sensing unit according to the present invention, a spring portion having a support portion and a movable portion is conductive. A signal of a sensor portion provided on the movable portion of the spring portion is transmitted via the spring portion. Hence, the sensing unit according to the present invention has a simple constitution with a small number of components, and a wire does not necessarily have to be provided for each sensor portion. As a result, a reduction in manufacturing cost, simplification of the manufacturing process, and so on are achieved.

Abstract: The torque sensor includes a plurality of coil units having a substantially cylindrical shape, the coil units including a plurality of detection coils arranged to face a magnetic characteristic change portion formed on a rotary shaft. The coil units include a first coil unit and a second coil unit, and the first coil unit and the second coil unit are disposed in the axial direction of the shaft. The first coil unit and the second coil unit are fixed in an integrally molded resin. Thereby, there is provided a torque sensor having a high productivity and an easy configuration and a method of manufacturing the torque sensor.

Abstract: In one embodiment, a process, for fabricating a medical lead for stimulation of tissue of a patient, comprises: forming a plurality of electrode assemblies wherein each electrode assembly of the plurality of electrode assemblies comprises a respective plurality of segmented electrodes angularly separated by ribs formed in one or more segments of thermoplastic tape; electrically coupling a conductor to each segmented electrode; molding polymer material around each segmented electrode of the plurality of segmented electrodes to interlock each segmented electrode with polymer material to form a distal end of the medical lead; and fusing the one or more segments of thermoplastic tape of each of the plurality of electrode assemblies with the polymer material.

Abstract: A method of splicing a power cable used to supply electricity to down hole submersible pumps uses a pair of annular armored seal members that are slid over the ends of an insulated electrical conductor being spliced together. Each armored seal member has a plurality of O-ring seals on one end thereof and a plurality of openings in the side thereof and are used to cover and protect a crimped conductor being spliced together. The method and apparatus allow a pair of spliced electrical cables to be used in an adverse environment.

Abstract: An electrical connector system includes a daughter card connector formed of a plurality of wafers. Each wafer is formed with cavities between the contacts of the signal conductors. The cavities are shaped to receive lossy inserts whereby crosstalk is reduced. The connector system may also or alternatively include a front housing formed with shield plates also to aid in reducing cross-talk. The front housing is adapted to mate between the wafers of the daughter card connector and a backplane connector of the electrical connector system. In an alternative embodiment, the front housing portion may include lossy conductive portions for cross-talk reduction.

Abstract: The present invention is directed to a physiological recording device, or other types of sensors to detect a biopotential, and more particularly, a physiological recording electrode that can be used without skin preparation or the use of electrolytic gels. The invention is further directed to the configurations of structures on the physiological recording electrode's lower surface. The structures having a length, width, and height, which are capable, at least in part, of transmitting an electric potential from the skin which can be measured. The structures may or may not limit the depth of application, and/or anchor the electrode or other device during normal application, and/or allow for uniform application of the electrode or other device over unprepared skin.

Abstract: It is proposed to oversheath with an insulating envelope a connecting component formed by a first housing (1), wherein said electrical component there are disposed electrical components which are connected to coupling elements (10) acting outwards. For this purpose, the first housing (1) is surrounded by a second housing (16), where the coupling elements (10) are also guided through corresponding openings of the second housing (16) and the space between the two housings is overcasted with a polyurethane plastic compound. After curing, the thus formed sheath (20) of the housing has, with only one process step, a shape identically reproducing that of the second outer housing (16).

Abstract: A connecting structure to connect electronic components electrically through a plurality of conducting lines each including a covered segment including a wire conductor covered with an insulating covering and an uncovered segment includes a molding unit and a sealing unit. The molding unit encloses a boundary portion between the covered segment and the uncovered segment of each of the conducting lines so that the uncovered segments project in a first direction from a first end of the molding unit and the covered segments project in a second direction from a second end of the molding unit, and thereby holding the conducting lines to fix positions of the conducting lines relative to one another. The sealing member of an adhesive adheres to the second end of the molding unit and adheres to each of the covered segments of the conducting lines projecting from the second end of the molding unit.

Abstract: Described is an electronic connector. The electronic connector has a substrate body for housing electronic pins and a cable. The substrate body is fabricated from a first material, such as hard plastic and has at least one passage from its exterior to its interior. The overmold is fabricated from a resilient material having a lower melting point than the first material. The resilient material is overmolded onto the substrate body and flows through the at least one passage in the substrate body and forms a gasket on the connecting surface of the substrate body.

Abstract: A method for forming a protective jacket over a connection region includes connecting the leads of an electronic device to conductors such that the connections are in a connection region, placing the connection region in a mold, injecting molten protective material into the mold to cover the connection region, allowing the molten material to cool and harden and removing the connection area from the mold.

Abstract: An electrical connection system is presented that is especially suited for use with a solar shingle application disposed on a rooftop of a building structure. The electrical connection system, when underlying roof shingles disposed on the rooftop, has a low profile that prevents an undesired buckled visual appearance from occurring to the roof shingles over a service life of the roof shingles. The electrical connection system has a thickness that is about a diameter thickness of at least one wire conductor that attaches with at least one connector body of the electrical connection system. The electrical connection system further includes at least one latch mechanism, that when sufficiently engaged against by a tool, allows a plug connector body to unmate from a socket connector body or a shunt socket connector body. A method to construct the at least one connector of the electrical connection system is also presented.

Abstract: A method of making a hermetically-sealed feed-through device includes inserting an elongate conductor or conductors within a hollow portion or portions of a plastic insulator body and inserting the plastic insulator body within a hollow outer jacket to form an assembly. At least one of the conductor or conductors, insulator body, or jacket of the assembly has a plurality of circumferential grooves. Thereafter, the assembly is crimped and/or is swage-crimped at ambient temperature to cause the materials of the conductor or conductors, insulator body, and outer jacket to be displaced or extrude into the grooves thereby creating mechanical interlocks between the conductor or conductors, insulator body, and outer jacket. Additional methods and feed-through devices made by the methods are also disclosed.

Abstract: An audio jack includes an insulative housing and a number of contacts retained therein. The insulative housing defines a receiving space for receiving a corresponding plug and a number of mounting holes extending inwardly from a mounting wall thereof. Each contact has a tail portion for connecting with a circuit board. A core pin is inserted into the receiving space and a plenty of elastomeric material is flowed into the mounting holes around the contacts to make the insulative housing being sealed except the receiving space. After the elastomeric material has solidified the core pin is withdrawn.

Abstract: The present invention provides technology with high production efficiency for an elastic connector that electrically connects two connection target members. The technology enables an initial product to be quickly completed with a low initial cost, in correspondence to any distance between the connection target members and any angle formed between them. An elastic connector was obtained by forming a major-axis columnar body, in which a conductive part was formed by cross linking and hardening (solidifying) conductive members inside a tube-like part formed of an insulative rubber tube, and then cutting the major-axis columnar body with a cutting blade along a cutting line, which is in a direction crossing the axis of the major-axis columnar body, to shorten the major-axis columnar body. This elastic connector eliminates the need to create a new metal mold in its manufacturing.

Abstract: The present invention is a method for manufacturing an electrical connector comprising an insulative housing with a base side and an opposed side and lateral sides interposed between said base side and said opposed side and at least one conductive contact including a first leg that extends from the base side of the insulative housing, the at least one conductive contact further including a second leg extending laterally adjacent the top side of the housing. In this method there is provided a mold comprising a first die and an opposed second die all defining an interior cavity and an exterior area. A molding compound input port extends between the exterior area and the interior cavity. The conductive contact is then positioned in the interior cavity such that the second leg extends adjacent the second die along an entirety of a length of the second die between first and second bent ends.