Abstract: An electrical connector using an isotropic conductive elastomer as the interconnect medium.

Abstract: A method of preparing an electrostatic dissipative composition that includes combining a conductive polymer; a crosslinkable polymer, and a crosslinking agent to form a fluidized dispersion, and providing the fluidized dispersion with a pH of about 7 to 9 to form the electrostatic discharge composition.

Abstract: A nonmetallic electrical contact or wiper composed of a composite carbon fiber material through which an electrical signal is terminated. The carbon fibers are arranged in and bonded into a multi-layer structure used to conduct a primary electrical signal. A nonwoven carbon fiber mat is used as one or more of the layers structure, which also includes one or layers of carbon fiber, aligned substantially in the same direction, and encapsulated within a matrix of electrometric material. This mat also improves an off-axis conductivity of the material and provides increased mechanical stability required for the fabrication of electrical contacts or wipers produced using this material.

Abstract: A method of forming a seal about an electrically conductive core of a cable having an insulative outer cover and a terminal includes the steps of providing a lead of the core extending beyond an axial edge of the insulative outer cover; applying a conformal coating onto the lead; crimping the terminal onto the cable while the conformal coating is still wet to displace the conformal coating from between the lead and the abutting contact surfaces of the terminal and to cover and seal remaining portions of the lead not in direct contact with the terminal with the conformal coating and curing the conformal coating over the remaining portions of the lead.

Abstract: An electrical connector using an isotropic conductive elastomer as the interconnect medium.

Abstract: Floating clamp sockets useful in electronic interconnection applications are disclosed.

Abstract: An electrical connector and method includes a connector and a conforming element proximate to or in contact with the mating end of the connector so as to prevent distortion of a matable end. The matable end of the connector may be of a female or male type and may be of a post, tube, blade, pin, or other configuration. An element made of conforming material, for example, an elastomer, epoxy or rubber type material, is configured and positioned in contact with the matable end of the connector, providing support during assembly to prevent distortion of the matable end. The conforming element may be rectangular, wedge, cylindrical, conical, annular, or of another configuration as required to provide support to the connector pin. The conforming element may be fastened with an adhesive to the matable end to further prevent distortion.

Abstract: The present invention provides a system and method for transmitting information between a device within a housing to a second device, preferably a test or monitoring unit, outside of the housing. There are numerous issues associated with transferring information from within a sealed housing to an external device. In some cases, the use of wires inside the housing may be impractical, due to internal conditions, such as fluid flow, pressure or temperature. In one embodiment, the antenna of the external RF reading device is electrically connected to the dome of the housing. In another embodiment, the device within the housing is electrically connected to a housing component. In another embodiment, the gasket is used to pass information from within the housing to an external device.

Abstract: This invention relates to an electrical connector for generating an electrical connection between at least a first electric conductor and at least a second electric conductor, e.g. for generating an electrical connection between the lead wires of a connector mounted between the ear side unit and receiver of a hearing device and the receiver, wherein said electrical connection is based on pressure of at least one of said conductors against a pressure-sensitive conductive elastomer fixated between said at least two electric conductors. The present invention further relates to a hearing device comprising an ear side unit, a receiver and an electrical connection between said ear side unit and said receiver, wherein said electrical connection comprises at least an electrical connector as described above. The invention also relates to a method of generating an electric connection between at least a first electrical conductor.

Abstract: An electrical connector using an isotropic conductive elastomer as the interconnect medium.

Abstract: Methods for fabricating Land Grid Array (LGA) interposer contacts that are both conducting and elastic. Also provided are LGA interposer contacts as produced by the inventive methods. Provided is LGA type which utilizes a pure unfilled elastomer button core that is covered with an electrically-conductive material that is continuous from the top surface to the bottom surface of the button structure. In order to obviate the disadvantages and drawbacks which are presently encountered in the technology pertaining to the fabrication and structure of land grid arrays using electrically-conductive interposer contacts, there is provided both methods and structure for molding elastomer buttons into premetallized LGA carrier sheets, and wherein the non-conductive elastomer buttons are surface-metallized in order to convert them into conductive electrical contacts.

Abstract: A connector device for interconnecting circuit substrates is provided, in which no electric element for protection needs to be mounted separately on circuit substrates. A rectangular parallelepiped connecting element having an electrical component (9) is received in a connector housing (11). The rectangular parallelepiped connecting element having an electrical component (9) includes a plurality of first electrically conducting path portions (17a) and a plurality of second electrically conducting path portions (17b) disposed on a rectangular parallelepiped insulating base (13), and a plurality of electric elements (19) that are electrically connected in series with the plurality of first electrically conducting path portions (17a) and the plurality of second electrically conducting path portions (17b).

Abstract: Provided is an anisotropic conductive connector and a prove member, each of which ensures that all of the conductive parts exhibit uniform conductivity when a pressing force is applied, even when the inspection target wafer has a large area and total number of inspection target electrodes of integrated circuits is 10,000 or more, and a wafer inspection system including the probe member.

Abstract: The present subject matter relates to an improved connection assembly for hearing assistance devices. The improved connection assembly provides a connection system that is reliable, straightforward to manufacture, and easy to use. The present connection assembly provides a rapid replacement option for the cable and/or the receiver or other electronics connected to the cable. The present subject matter provides for a connection assembly that can be extended to provide connections for a variety of applications which are not limited to a speaker (receiver) in the ear. Sensors and new configurations of component placement are supported using the present assembly, including, but not limited to telecoils, and GMR or TMR sensors. Various electromagnetic interference issues are addressed. In some examples a shielded set of wires are included. In some examples a twisted pair of wires is included. Various combinations of wires for different applications are supported with the present connector system.

Abstract: A field decoupling element for use with an implantable line with an elongated line body and a function conductor which extends in the longitudinal direction of the line body and acts to implement a medical function of the line, such that the field decoupling element is in electric contact with the function conductor in the use state connected to the line and reduces coupling of the function conductor to an external field.

Abstract: Disclosed is an anisotropic conductive sheet which is equipped with an insulating base portion and a plurality of conductive portions extending through the base portion in a thickness direction thereof, which easily allows temporary fixation at a time of attachment thereof, and which, if pressurized, causes no adhesive material to be squeezed out onto the conductive contacts. An anisotropic conductive sheet includes a base portion and conductive portions exposed therethrough to form conductive contacts, with at least one of surfaces of the base portion having an adhesive portion spaced apart from the conductive contacts.

Abstract: A strain-resistant electrical connection and a method of making the same is provided. A wire or other conductive lead is connected to a circuit in a manner that makes the connection more resistant to mechanical stresses such as movement or rotation of the lead relative to the circuit. A material is configured around the lead and near the point of connection to the circuit so as to create a region of decreasing flexibility or graduated stiffness near the point of connection. In certain embodiments, the lead may also be coiled or otherwise shaped to provide additional ability to withstand mechanical stresses.

Abstract: Disclosed are a connector for measurement of electric resistance, by which necessary electrical connection is surely achieved even when a circuit board to be inspected is large in area and has a great number of small-sized electrodes to be inspected, and measurement is surely performed with high precision, and which can be produced at a low cost, and an electric resistance-measuring apparatus and an electric resistance-measuring method for circuit boards, which make use of this connector. The connector for measurement of electric resistance has a first electrode sheet, an anisotropically conductive elastomer sheet arranged on a back surface of the first electrode sheet and having through-holes formed corresponding to the electrodes to be inspected, and a second electrode sheet arranged on a back surface of the anisotropically conductive elastomer sheet.

Abstract: In a method and devices for forming a temporary electrical contact to a solar cell for testing purposes, probes form a contact to the electrode terminals of a solar cell held by a sample holder. The probes are held by a probe holder and exhibit an elastic, electrically conductive contact element and at least one reference sensor. In order to form a contact, the solar cell and the probes are positioned in relation to each other, and then a probe is placed on an electrode terminal of the solar cell. To this end, a feed motion of the probe is carried out until a reference sensor of the probe generates a reference signal upon reaching a predefined distance. Then the feed motion is continued by a predefined path that goes beyond the contact element making contact with the electrode terminal, in order to carry out an overtravel.

Abstract: A socket for an electrical part comprises a socket body to be mounted on a wiring board and a contact unit mounted on the socket body and provided with a plurality of electro-conducting members. The contact unit including a unit body vertically movable with respect to the socket body, the unit body being provided with the electro-conducting member which comprises an upper contact portion to be contacted with a terminal of the electrical part accommodated on the unit body and a lower contact portion to be contacted with an electrode portion of the wiring board. A contact pressure between the upper contact portion and the terminal of the electrical part is designed to be equal to a contact pressure between the lower contact portion and the electrode of the wiring board.

Abstract: For achieving electrical connection by contact with a connection object, a connector includes a body portion including an elastic body. A conductive layer extends along a surface of the body portion and is adapted for contact with the connection object. The conductive layer has a plurality of projections projecting outward.

Abstract: A contact structure disposed on a substrate is provided. The contact structure includes a pad, a polymer bump and a conductive layer. The pad is on the substrate. The polymer bump having a curve surface and a steep surface connecting with the curve surface is disposed on the substrate. The polymer bump is covered by the conductive layer and the conductive layer is electrically connected with the pad.

Abstract: A socket includes an insulating elastomeric sheet having a penetration hole, metal circuits formed on at least one of the front and rear surfaces of the elastomeric sheet, and a through-hole having a metal film formed on an inner wall of the penetration hole. The metal circuit on the front surface of the elastomeric sheet is electrically connected to the metal circuit on the rear surface of the elastomeric sheet via the through-hole. With such a configuration of the socket, it is possible to provide a socket contact terminal and a semiconductor device having the same, which is suitable for low-resistance, large-current, and high-speed configurations.

Abstract: An endoscope apparatus includes a light emitting diode provided at a tip end of an insertion part, and an electrical power supplying circuit of the light emitting diode which is detachably connected to a main power supply, the electrical power supplying circuit having an energizing controlling device of the light emitting diode, which operates upon being connected and disconnected to the main power supply.

Abstract: The subject disclosure is directed to female connectors which can be employed in a quick connect/disconnect system used in medical devices to provide a non-permanent electrical and mechanical engagement with a male connector. The female connectors include, inter alia, a connector body that has an outer periphery and an aperture extending therethrough. The connector body has a flexible, non-conductive portion and a conductive portion which is at least partially exposed in the aperture and on the outer periphery of the connector body. The connector body is constructed such that when a male connector is inserted into the aperture of the connector body, the flexible, non-conductive part and the conductive part of the connecter body cooperate to allow for expansion of the aperture, creating contact pressure between the conductive part of the connector body and the male connector.

Abstract: The present invention discloses a method for reinforcing the connection between a wire formed on a substrate and a flat cable member with a reinforcing material. The method includes the step of supplying fluid and the step of hardening the fluid to form the reinforcing material. The step of supplying the fluid includes the step of bringing the substrate connecting to the flat cable member close to a jig and then supplying the fluid to a region in which the reinforcing material is to be formed while preventing the outflow of the fluid with the jig.

Abstract: An electrical contact is provided that includes an elastomeric body extending between a base portion and a mating end portion. The elastomeric body includes a ledge extending from the mating end portion to the base portion of the elastomeric body. The ledge is defined by a portion of the elastomeric body. An electrically conductive pad extends over at least a portion of the mating end portion. An electrically conductive trace is formed on a surface of the ledge. The electrically conductive trace extends from the mating end portion to the base portion of the elastomeric body. The electrically conductive trace is in electrical contact with the electrically conductive pad for electrically connecting the electrically conductive pad with an electrically conductive element engaging the base portion of the elastomeric body.

Abstract: A lamp assembly including at least two light emitting diodes (LEDs) attached to an electrically non-conductive housing by at least two beads of electrically conductive epoxy. The electrically conductive epoxy beads are disposed in at least two grooves formed in the housing, for providing at least two voltage rails for connecting the LEDs to a driving circuitry.

Abstract: The subject disclosure is directed to female connectors which can be employed in a quick connect/disconnect system used in medical devices to provide a non-permanent electrical and mechanical engagement with a male connector. The female connectors include, inter alia, a connector body that has an outer periphery and an aperture extending therethrough. The connector body has a flexible, non-conductive portion and a conductive portion which is at least partially exposed in the aperture and on the outer periphery of the connector body. The connector body is constructed such that when a male connector is inserted into the aperture of the connector body, the flexible, non-conductive part and the conductive part of the connecter body cooperate to allow for expansion of the aperture, creating contact pressure between the conductive part of the connector body and the male connector.

Abstract: To provide a contact, formed in an amorphous state, having better spring properties as compared to conventional one; a method for manufacturing the contact; a connection device including the contact; and a method for manufacturing the connection device. The present invention provides a contact comprising an elastically deforming portion that includes at least one amorphous part. The elastically deforming portion includes an auxiliary elastic member 41 made of, for example, NiP (a P content of 15 atomic percent). In this case, an amorphous phase 50 is predominant in the auxiliary elastic member 41.

Abstract: A wireless terminal reliably supplies battery power to a wireless terminal body, and reduces the number of fabrication processes and fabrication cost. The battery contact system of the wireless terminal includes a body having a printed circuit board, a battery compartment, a battery detachably accommodated in the battery compartment, and at least one connection unit for transmitting battery power the body. The connection unit is an insulated elastic body protruding from the battery compartment and encompassing flexible conductors within the insulated elastic body.

Abstract: In an electrical connector for connecting connection objects to each other in a connecting direction, a holding member has an accommodating portion between a first and a second surface to which the connection objects are opposed, respectively, when connected to said electrical connector. A connecting member has elasticity and is placed in the accommodating portion. The holding member includes a first and a second wall which define the accommodating portion therebetween. At least one of the first and the second walls includes a restraining portion defining a space which allows a portion of the connecting member to elastically move in a predetermined direction crossing the connecting direction.

Abstract: A connector includes a plurality of contacts. The connector includes an insulator having a plurality of through-holes for receiving the contacts. A pair of contacts are disposed in each of the through-holes. Since two contacts are disposed in the through-hole in the insulator, even if a fault occurs in one of the contacts, signal transmission in the same line can continuously be used. Moreover, since large areas of contact portions of the contacts are secured even in normal use, the capacity of electric current is increased.

Abstract: The present invention discloses a static electricity conductive mechanism including a plurality of conductive bumps and conductive members, for conducting static electricity generated by a connector device to a base thereof, the connector device having a connector body disposed on a circuit board, and the base being ground to earth. The conductive bumps of the static electricity conductive mechanism are each disposed on the base. The conductive members are disposed between the connector body and the conductive bumps. The conductive members conduct to the conductive bumps the static electricity generated by the connector body, thus conducting to earth the static electricity generated by the connector body. The prior art involves disposing a resilient element between a connector's body and base and thereby results in poor contact and poor conduction of static electricity between the body and the base. The drawback is solved by the present invention.

Abstract: A connector assembly includes a first elastomeric connector having a plurality of alternating elastomeric conductors and elastomer insulators. The first elastomeric connector has first and second contact interfaces spaced apart from one another and extending generally perpendicular to the conductors and insulators. The connector assembly also includes a second elastomeric connector having a plurality of alternating elastomeric conductors and elastomer insulators. The second elastomeric connector has first and second contact interfaces spaced apart from one another and extending generally perpendicular to the conductors and insulators. A holder includes a body extending between first and second opposing surfaces, and the body defines a first recess housing the first elastomeric connector and a second recess housing the second elastomeric connector.

Abstract: An electrode assembly useful in manufacturing aluminum, contains a hollow inert electrode (12) containing a metal conductor (14) surrounded and held in place by at least one seal (16) and a mass of metal foam (26).

Abstract: An electrical connector assembly and method of connecting an electrical connector to a substrate are provided. The electrical connector assembly includes a substrate having first electrical circuitry formed on a surface, an elastomer, and second electrical circuitry disposed at least partially between the substrate and the elastomer. Elements of the second electrical circuitry are pressed into contact with contact pads of the first electrical circuitry. The electrical connector assembly also includes a holder securing the elastomer in a compressed state to provide a pressure contact between the circuit elements and the contact pads.

Abstract: A quick disconnect fastener is disclosed. The quick disconnect fastener includes a male member for joining to a first end of a first loop structure including a male body section, a probe section coupled to the body section, the probe section further including a probe head support structure coupled to a forward head section. The quick disconnect fastener also includes a cavity defined rearwardly in the male body section for receiving the first end of the loop structure. The quick disconnect fastener further includes a female member for joining to a second end of a second loop structure including, a female body section having an opening including, a flexible material in the opening configured to compressibly form around the probe section when the male member is coupled to the female member. The quick disconnect fastener also includes a cavity section defined rearwardly in the female body section for joining to the second end of the second loop structure.

Abstract: A detector module includes a plurality of detector elements, each of which is provided with a first contact point. Further, a circuit board includes second contact points. In order to be able to electrically connect a larger number of detector elements to the circuit board, the first contact points and the second contact points are arranged in a congruent grid and are electrically connected by an electrical elastomer connector.

Abstract: A fuel tank component has a weldable connector that is connected to a housing via a secure chemical bond. The connector and the housing are modified so that they bond to each other. The interface between the connector and the housing may be stepped to increase its surface area and thereby increase the strength of the chemical bond. The chemical bond in the inventive valve eliminates the need to include complex interlocking geometries in either the connector or the housing and reduces the complexity of the tooling needed to mold the component.

Abstract: A contact device for enhancing the conductance of an electrical connection which includes two conductors (21 and 23) in contact with each other essentially including an interposed conductive element arranged between the two contact surfaces (22 and 24) of the two conductors (21 and 23) of the connection. The interposed conductive element is made of electrically conductive foam (10) which includes one or more materials with high porosity and deformability so as to reduce the electrical resistance of the connection.

Abstract: A method and system for connecting and using a circuit board connected to a conductive element is disclosed. The circuit board includes a backstop and a plurality of conductive traces positioned on an edge. The conductive element includes a plurality of conductive layers and a plurality of insulating layers alternately placed along the length of the conductive element. The conductive element is placed between the edge of the circuit board having the conductive traces and a clasp prior to inserting the circuit board into the clasp. The conductive element is conformed between the circuit board and the clasp. Each conductive trace contacts a conductive layer as a result of the insertion. The backstop conforms an extending portion of the conductive element to be substantially perpendicular to the circuit board. The assembled device can be used to provide charge to a plurality of electrodes on a substrate simultaneously.

Abstract: The invention provides an IC socket of synthetic resin, whose surface resistivity is strictly controlled to the desired level and which is much more improved in terms of electrical insulation properties, mechanical properties, heat resistance, chemical resistance, dimensional stability, etc. The IC socket is obtained by molding or otherwise forming a thermoplastic resin composition comprising 40 to 94% by mass of a thermoplastic resin, 5 to 30% by mass of a carbon precursor having a volume resistivity of 102 to 1010 ?·cm and 1 to 30% by mass of an electrical conductive filler having a volume resistivity of less than 102 ?·cm.

Abstract: A connector is mounted on a printed circuit board in an enclosure. A member is interposed between the enclosure and the printed circuit board so as to hold the printed circuit board on the enclosure. The member allows change in the attitude of the printed circuit board relative to the enclosure. When the connector is coupled to the other connector, the connector receives a force from the other connector in the electronic apparatus. The force induces the change in the attitude of the connector and the printed circuit board. The change in the attitude in this manner enables consumption of the energy of the force within the member. Generation of stress can be suppressed in a bonding member such as a solder coupling the connector with the printed circuit board, for example. Generation of cracks can be prevented in the solder. Shockproof is improved for the connector.

Abstract: An anisotropic conductive material body includes an insulating medium; and a plurality of conductive members dispersed in the medium. At least a surface of each of the plurality of conductive members is conductive. A force is applied to at least one of the plurality of conductive members so as to change the at least one conductive member, so that the conductive property of the anisotropic conductive material body provided by the at least one conductive member is changed to an insulating property.

Abstract: Disclosed herein are an anisotropically conductive connector, by which positioning, and holding and fixing to a wafer can be conducted with ease even when the wafer has a large area of 8 inches or greater in diameter, and the pitch of electrodes to be inspected is small, and good conductivity is retained even upon repeated use, and applications thereof. The anisotropically conductive connector has a frame plate, in which a plurality of anisotropically conductive film-arranging holes have been formed correspondingly to electrode regions in all or part of integrated circuits on a wafer, and a plurality of elastic anisotropically conductive films arranged in the respective anisotropically conductive film-arranging holes. The elastic anisotropically conductive films each have a plurality of conductive parts for connection extending in a thickness-wise direction thereof and containing conductive particles, and an insulating part mutually insulating them.

Abstract: Methods and apparatus are provided for an interconnect system for coupling radio frequency signals from one component to another in a RF system. The interconnect system acts as a coaxial connection. The apparatus comprises an interconnect, a dielectric sleeve, and a conductive elastomeric gasket. The interconnect has a first major surface and second major surface for providing an electrical connection. A through hole is formed in a first component. The dielectric sleeve is placed in the through hole. The interconnect is placed in the dielectric sleeve. The conductive elastomeric gasket is placed in proximity to the through hole contacting the first component and a second component. The RF system is assembled compressing the elastomeric gasket to have intimate contact with the first and second component. The intimate contact electrically connects the first and second component and an electric shield is formed around the interconnect thereby suppressing the reception and transmission of RF signals.

Abstract: A contact probe comprises a tip portion for making contact with a subject surface, a supporting portion, and a spring portion for connecting the other two members. The tip portion has a corner portion whose radius of curvature is larger than that of the opposite corner portion that moves in the lead during the scrubbing by the pressing force. The insulating layer on the subject surface is sufficiently removed by the scrubbing to secure the electrical contact, and the amount of shavings is minimized during the dissociation of the contact probe. Formation of scratches on the subject surface is reduced. Another contact probe for a ball-shaped electrode has a tip portion with a recess, which has a protrusion and bottom. The protrusion breaks the insulating layer on the electrode to secure the electrical contact. The bottom makes contact with the electrode to prevent the protrusion from excessively biting the electrode.

Abstract: A material for use as part of an internal capacitor within a circuitized substrate includes a polymer resin and a quantity of nano-powders including a mixture of at least one metal component and at least one ferroelectric ceramic component, the ferroelectric ceramic component nano-particles having a particle size substantially in the range of between about 0.01 microns and about 0.9 microns and a surface within the range of from about 2.0 to about 20 square meters per gram. A circuitized substrate adapted for using such a material and capacitor therein and a method of making such a substrate are also provided. An electrical assembly (substrate and at least one electrical component) and an information handling system (e.g., personal computer) are also provided.

Abstract: An electrical contact (2) and method of making the electrical contact (2), and a connector (11) and method making the connector (11), wherein the electrical contact (2) is an electrically conducting, nonwoven mesh (60), with edges of the mesh providing multiple contact points for edgewise electrical connection of the electrical contact (2), wherein the mesh (60) is annealed while restrained in the form of the electrical contact (2) wherein the mesh (60) is free of internal elastic strain, and wherein the connector (11) retains the electrical contact (2) for edgewise connection.