A data communication cable assembly including a cable with wire and/or optical fiber communication mediums for transmitting data signals and/or power signals, and connectors for connecting to a pair of devices, respectively. Each of the connector includes a connector plug or receptacle configured to mate with a corresponding receptacle or plug of a device, wherein the connector plug or receptacle includes a set of electrical contacts configured to send and/or receive the data signals and/or power signals to and/or from the device; a metallic shell defining an enclosure and including first and second openings, wherein the connector plug or receptacle mate is configured to mate with the corresponding receptacle or plug of the device via the first opening, and wherein the cable extends from inside to outside of the enclosure via the second opening; and electrically-conductive filler material configured to reduce electromagnetic leakage via the first and second openings.

An anisotropic conductive sheet including: a sheet body including a material having an insulation property; and a plurality of conductive portions each including a material having a conductive property, each of the plurality of conductive portions being provided so as to penetrate one surface side and another surface side of the sheet body is provided. Each of the plurality of conductive portions includes a plurality of conductive fibrous members. In the plurality of conductive fibrous members in the conductive portion, a longitudinal direction (Q) of each conductive fibrous member is along a direction that is substantially same as a penetration direction (P) of the penetration between the one surface side and the other surface side and the conductive fibrous members are in contact with one another, providing electrical connection from the one surface side toward the other surface side.

A contact element (1) for establishing electric contact between two contact pieces comprises a support grip (2) extending in a longitudinal direction (L) as well as a plurality of contact parts (5,5a, 5b), each of which has a first contact section (6) for contacting one of the two contact pieces (K1, K2), a second contact section (7) for contacting the other one of the two contact pieces (K2, K1), and a fastening section (8) for securing the contact part (5, 5a, 5b) to the support strip (2) at a fastening point (3). Each contact part (5, 5a, 5b) comprises at least one plastically deformable connection element (50) for securing the contact part (5, 5a 5b) to the support strip (2). The at least one connection element (50) forms an integral part of the contact part (5, 5a, 5b).

A manufacturing method of connector structure including the following steps is provided. First, providing a dielectric layer having. Then, forming a first adhesive layer and a second adhesive layer on two opposite sides of the dielectric layer respectively. Then, providing at least one first conductive elastic cantilever and at least one second conductive elastic cantilever, wherein the first conductive elastic cantilever comprises a first fixing end portion and a first free end portion, and the second conductive elastic cantilever comprises a second fixing end portion and a second free end portion. Then, fixing the first fixing end portion and the second fixing end portion to the first adhesive layer and the second adhesive layer respectively, wherein the first fixing end portion is aligned with the second fixing end portion. Afterward, forming at least one conductive via for electrically connecting the first conductive elastic cantilever with the second conductive elastic cantilever.

In a connection structure, a first electronic component having a first terminal pattern and a second electronic component having a second terminal pattern different in size and pitch from the first terminal pattern are anisotropically conductively connected by an anisotropic conductive film to a third electronic component having a terminal pattern corresponding to each of the first terminal pattern and the second terminal pattern. The anisotropic conductive film has at least one of a region in which conductive particles are regularly arranged, and a plurality of regions in which at least one of a number density, a particle diameter, and a hardness of the conductive particles in one region is different from that in the other region.

An anisotropic conductive sheet including: a sheet body including a material having an insulation property; and a plurality of conductive portions each including a material having a conductive property, each of the plurality of conductive portions being provided so as to penetrate one surface side and another surface side of the sheet body is provided. Each of the plurality of conductive portions includes a plurality of conductive fibrous members. In the plurality of conductive fibrous members in the conductive portion, a longitudinal direction (Q) of each conductive fibrous member is along a direction that is substantially same as a penetration direction (P) of the penetration between the one surface side and the other surface side and the conductive fibrous members are in contact with one another, providing electrical connection from the one surface side toward the other surface side.

A manufacturing method of connector structure including the following steps is provided. First, providing a dielectric layer having. Then, forming a first adhesive layer and a second adhesive layer on two opposite sides of the dielectric layer respectively. Then, providing at least one first conductive elastic cantilever and at least one second conductive elastic cantilever, wherein the first conductive elastic cantilever comprises a first fixing end portion and a first free end portion, and the second conductive elastic cantilever comprises a second fixing end portion and a second free end portion. Then, fixing the first fixing end portion and the second fixing end portion to the first adhesive layer and the second adhesive layer respectively, wherein the first fixing end portion is aligned with the second fixing end portion. Afterward, forming at least one conductive via for electrically connecting the first conductive elastic cantilever with the second conductive elastic cantilever.

Systems and methods of securing an integrated circuit assembly includes: arranging a plurality of securing elements within a plurality of orifices fabricated within one or more layer components of a plurality of layer components of an integrated circuit assembly; applying a mechanical compression load against the integrated circuit assembly that uniformly compresses together the plurality of layer components of the integrated circuit assembly; after applying the mechanical compression load to the integrated circuit assembly, fastening the plurality of securing elements while the integrated circuit assembly is in a compressed state based on the mechanical compression load; and terminating the application of the mechanical compression load against the integrated circuit assembly based on the fastening of the plurality of securing elements.

This invention provides a polymer thick film electrically conductive paste composition, comprising conductive metal powder, a resin blend of polyol and phenoxy resin, blocked aliphatic polyisocyanate and one or more polar, aprotic solvents. In one embodiment the paste composition is used to form electrically conductive adhesive. In another embodiment the paste composition is used to form an electrically conductive polymer thick film.

The present invention relates to a method for producing a high-frequency connector. The method includes producing a basic body part from a dielectric material by means of an additive manufacturing method. The basic body part has a bushing between a first end and a second end of a longitudinal extent of the basic body part and an end face at the first end for making contact with a mating connector. In addition, the method includes coating the dielectric basic body part with an electrically conductive layer and removing the electrically conductive layer in a region surrounding the bushing in each case at the end face at the first end and at the second end of the basic body part so as to form an electrically conductive coating on the outer conductor side and an electrically conductive coating on the inner conductor side. The present invention also relates to a high-frequency connector.