To provide a flexible conductive base member and a multilayer conductive base member including the same, having no problem of failing to function as a contact and causing a variation in height between contacts.

There are a covered region 10 covered with a noble metal and a non-covered region 20 not circumferentially covered with a noble metal on a surface of a reticulated fibrous body 50. The covered region 10 is located at an intersection 7 of fibers 5 of the reticulated fibrous body 50, and the intersections 7 are connected to each other. The non-covered region 20 is located between the intersections 7 of the fibers 5 of the reticulated fibrous body 50.

A grounding device for maintaining a ground path between a component of a connector and an interface port when the grounding device flexes includes a sealing member configured to form a conductive ground path between a component of a connector and an interface port. The sealing member comprises a sealing portion that is configured to overlie a grounding portion toward a radial direction of the connector when the connector is assembled, and the sealing portion and the grounding portion of the sealing member are configured to flex when a force is applied to the sealing member so as to maintain a ground path between the component of the connector and the interface port when the sealing portion and the grounding portion flex and when a force is applied to the sealing member during operation of the connector.

A cable system component includes a nut having a seal-grasping surface portion and a seal having an elastically deformable tubular body attached to the nut. The body has a posterior sealing surface that cooperatively engages the seal-grasping surface portion of the nut and a forward sealing surface configured to cooperatively engage an interface port. The seal includes a nonconductive elastomer overlying a conductive elastomer in a radial dimension of the seal. The conductive elastomer is configured to make an electrical ground connection with the interface port before a center conductor of the coaxial cable makes an electrical connection with an internal contact of the interface port when the nut is coupled with the interface port.

A connector comprises an insulating housing (10) defining a plurality of isolated terminal chambers and a plurality of conductive terminals (20) disposed in respective terminal chambers of the insulating housing. Each of the terminal chambers has a bottom portion (101) on one side of the insulating housing and an opening (102) through a surface (103) on the opposite side of the insulating housing. Each of the conductive terminals comprises a fixing portion (201) that is fixed on the bottom portion of a corresponding terminal chamber, a contact portion (203) that is projecting out of the opening, and a middle portion (202) that is connected between the fixing portion and the contact portion and slanting from one end of the fixing portion towards the other end of the fixing portion. The middle portion and the contact portion are configured to move both towards the bottom portion and in a longitudinal direction of the insulating housing in response to pressure imposed on the contact portion.

A multipart connector for electrical connection to a conductor to convey AC power having a frequency greater than 60 Hz. The connector includes a plurality of metal plates. Each metal plate has opposing planar surfaces and includes a pair of legs separated by a space. A plurality of insulation layers adjoin the planar surfaces of the metal plates, respectively. The insulation layers include a pair of legs separated by a space. The metal plates and the insulation layers are arranged in a stack such that the spaces of the metal plates and the insulation layers are aligned to form a groove extending through the stack. The conductor is disposed in the groove.

A separable connector interface includes at least one electrically conductive element with a metal polymer composite deposited thereon. The metal polymer composite has conductive particles dispersed within a protective binder.

A component of a subsea connector includes a conductor, an electrically insulating layer and an at least partially electrically conductive layer. A method of assembling the component includes providing the insulating layer radially outward of the conductor; and applying the at least partially conductive layer onto the insulating layer by casting, moulding, compression fitting, or additive manufacturing techniques.

A high-power plug connection system is provided comprising a cable connection housing for connecting at least two electric high-power plug connectors in order to transmit and/or distribute high electric current strengths and/or high electric voltages, at least two insulating bodies for receiving a respective high-power contact and at least one electrically conductive rail, wherein the longitudinal axes of the high-power contacts are arranged essentially in one plane in an offset manner from each other, the high-power contacts being connected together in an electrically conductive manner by the electrically conductive rail, said high-power contacts being provided with at least one recess, into which the rail at least partly fits, and wherein an interior space formed in the cable connection housing is at least partially encapsulated with a dielectric substance.

A grounding device for maintaining a ground path between a component of a connector and an interface port when the grounding device flexes includes a sealing member configured to form a conductive ground path between a component of a connector and an interface port. The sealing member comprises a sealing portion that is configured to overlie a grounding portion toward a radial direction of the connector when the connector is assembled, and the sealing portion and the grounding portion of the sealing member are configured to flex when a force is applied to the sealing member so as to maintain a ground path between the component of the connector and the interface port when the sealing portion and the grounding portion flex and when a force is applied to the sealing member during operation of the connector.

A high-voltage electrical connector for the space sector, includes a male portion and a female portion, which are intended to produce an electrical contact (CE) between the portions, the male portion comprising: a metallic male external shell; a male dielectric block encapsulated by the male shell and having a male structured region comprising what is called a male recess; the female portion comprising: a metallic female external shell, a female dielectric block encapsulated by the female shell and having a female structured region comprising a female recess; the male or female external shell having at least one opening, the male structured region having a shape that complements a shape of the female structured region, so that the male structured region is capable of being inserted into the female structured region in order to allow the electrical contact and so as to create a leakage duct between the female structured region and the male structured region allowing the air included between the female structured region and the male structured region to flow to the at least one opening.