An anisotropic electrically conductive film that is suitable for use in fine-pitch FOG connections and COG connections and that also can reduce increases in production costs associated with increasing the electrically conductive particle density. The anisotropic electrically conductive film includes an electrically insulating adhesive layer and electrically conductive particles disposed within the electrically insulating adhesive layer. The anisotropic electrically conductive film has electrically conductive particle disposition regions that are disposed in a manner corresponding to the arrangement of terminals of electronic components to be connected. The electrically conductive particle disposition regions are formed periodically in the longitudinal direction of the anisotropic electrically conductive film. The anisotropic electrically conductive film also has buffer regions in which no electrically conductive particles are disposed that are formed between adjacent electrically conductive particle disposition regions for connection.

An Ethernet cable assembly including a cable with nine elongated conductors, a first connector and a second connector located on opposing ends of the cable, and a coupler for electrically coupling with one or both of the connectors. The connectors may each include nine pin receptacles electrically coupled with one of the elongated conductors. The nine receptacles may be arranged with one center receptacle surrounded by eight outer receptacles, symmetrically arranged about a line of symmetry passing through the center receptacle, such that when identical first or second connectors of another cable faces one of the first and second connectors, complementary crossover pairs of the receptacles match up with positive receptacles matching positive receptacles and negative receptacles matching negative receptacles. To couple these identical Ethernet connectors with each other, the coupler may have pins simply passing from one side of the coupler housing to another, without any crossover hardware required therein.

An Ethernet cable assembly including a cable with nine elongated conductors, a first connector and a second connector located on opposing ends of the cable, and a coupler for electrically coupling with one or both of the connectors. The connectors may each include nine pin receptacles electrically coupled with one of the elongated conductors. The nine receptacles may be arranged with one center receptacle surrounded by eight outer receptacles, symmetrically arranged about a line of symmetry passing through the center receptacle, such that when identical first or second connectors of another cable faces one of the first and second connectors, complementary crossover pairs of the receptacles match up with positive receptacles matching positive receptacles and negative receptacles matching negative receptacles. To couple these identical Ethernet connectors with each other, the coupler may have pins simply passing from one side of the coupler housing to another, without any crossover hardware required therein.

A conductive film includes an elongated release film and a plurality of conductive adhesive film pieces provided on the release film. Then, the plurality of adhesive film pieces are arranged in a longitudinal direction X of the release film. For this reason, the adhesive film piece can be set to an arbitrary shape. Accordingly, it is possible to attach the adhesive film piece to adhesive surfaces having various shapes and to efficiently use the adhesive film piece.

A conductive film includes an elongated release film and a plurality of conductive adhesive film pieces provided on the release film. Then, the plurality of adhesive film pieces are arranged in a longitudinal direction X of the release film. For this reason, the adhesive film piece can be set to an arbitrary shape. Accordingly, it is possible to attach the adhesive film piece to adhesive surfaces having various shapes and to efficiently use the adhesive film piece.

The present disclosure provides a multifunctional high-voltage connector and a battery product, the multifunctional high-voltage connector comprises: an upper cover; a pedestal; a conductive connection structure; two mating terminals; and a harness assembly. The conductive connection structure is used to make the two mating terminals be connected in series, and the harness assembly is directly connected to one of the mating terminals. When the upper cover and the pedestal are assembled, the conductive connection structure is simultaneously in contact with the two mating terminals, thereby turning on the high-voltage circuit. When the battery product requires maintenance, the upper cover is directly detached from the base, thereby turning off the high-voltage circuit. The battery product can be electrically connected to an external device via the harness assembly. The multifunctional high-voltage connector integrates both a switch function and a high-voltage connection function, therefore the connection resistance is greatly reduced.

The present disclosure provides a multifunctional high-voltage connector and a battery product, the multifunctional high-voltage connector comprises: an upper cover; a pedestal; a conductive connection structure; two mating terminals; and a harness assembly. The conductive connection structure is used to make the two mating terminals be connected in series, and the harness assembly is directly connected to one of the mating terminals. When the upper cover and the pedestal are assembled, the conductive connection structure is simultaneously in contact with the two mating terminals, thereby turning on the high-voltage circuit. When the battery product requires maintenance, the upper cover is directly detached from the base, thereby turning off the high-voltage circuit. The battery product can be electrically connected to an external device via the harness assembly. The multifunctional high-voltage connector integrates both a switch function and a high-voltage connection function, therefore the connection resistance is greatly reduced.

Provided is a multilayer wiring substrate capable of achieving excellent conduction reliability. The multilayer wiring substrate is formed by laminating an anisotropic conductive member including an insulating base which is made of an inorganic material, a plurality of conductive paths which are made of a conductive member, penetrate the insulating base in a thickness direction thereof and are provided in a mutually insulated state, and a pressure sensitive adhesive layer which is provided on a surface of the insulating base, in which each conductive path has a protrusion protruding from the surface of the insulating base, and a wiring substrate having a substrate and one or more electrodes to be formed on the substrate, and conductive paths which come into contact with the electrode among the plurality of conductive paths are deformed so that adjacent conductive paths come into contact with each other.

A pad extender for coupling a connector coupled to a conductor cable to a lug terminal member of a transformer. The pad extender includes a planar body having a first portion and a second portion. The first portion has a first axis. The pad extender further includes an elongated slot defined in the first portion of the planar body extending parallel to the first axis. The first portion is couplable to the lug terminal member via a first fastener extending through the slot. The planar body is slidable relative to the lug terminal member along a length of the elongated slot. The pad extender further includes a plurality of apertures defined in the second portion. The connector is couplable to the second portion via a second fastener extending through one of the apertures of the second portion.

Power connector includes a connector housing having a mating side and a mounting side. The connector housing includes a receiving cavity that opens to the mating side. The mounting side is configured to interface with an electrical component. The power connector also includes first and second power contacts disposed within the receiving cavity and configured to be terminated to the electrical component. The power connector also includes a multi-function contact configured to be terminated to the electrical component. The multi-function contact includes a switch segment that is disposed within the receiving cavity. The switch segment has a mating interface that is configured to engage the first power contact and is capable of flexing between first and second positions. The mating interface engages the first power contact in the first position and is separated from the first power contact in the second position.