The disclosure relates to a glass-metal feedthrough, composed of an outer conductor or a basic body, a glass material or glass-ceramic material, and an inner conductor. The inner conductor is preferably a metal pin and the inner conductor is sealed in the outer conductor, in particular basic body, in the glass or glass-ceramic material. The metal pin comprises a material with high conductivity and/or low contact resistance, as well as a sleeve element that surrounds the metal pin at least partially.

An electrical bushing is provided that includes a conductor, a conductive polymer screen, and an insulating body. The conductive polymer screen has a first region and a second region. The insulating body is molded over at least a portion of the conductor and is molded over the first region of the screen. The second region of the screen extends outward from the insulating body to define an exterior flange.

A system for the manufacturing of high-fidelity insulated components is described. Per field requirements, components crafted via the process are hermetically sealed, and are configured to employ appropriately matched materials in accordance with their inherent properties of thermal expansion. A pin, glass insulator, and ferule are present. As opposed to conventional insulated components which employ stainless steel as an inefficient conductor, the unique matching process of the system provides for the use of copper and silver alloys to maximize efficiency while maintaining a hermetic seal. Specific glass is selected in accordance with the desired alloy in order to maintain similar degrees of expansion and contraction per temperature variations.

Disclosed herein is an implantable pulse generator for administering electrotherapy via an implantable lead. The pulse generator includes a housing and a header connector assembly coupled to the housing. The header connector assembly includes a connector assembly and a header enclosing the connector assembly. The connector assembly includes a support and a connector receptacle. The support extends at least partially about the connector receptacle and is at least partially responsible for having prevented injection molding material from entering the connector receptacle when the injection molding material was injection molded about the connector assembly in forming the header.

A modular safety apparatus adapted to allow the flow and create a mechanical seal for a series of electric conductors in wellheads, thus, ensuring pressure control and internal hydraulic integrity and allowing for a method to repair leaks and/or conductor cables that does not require the use of specialized well maintenance equipment, comprising a sealing case attached to a lower connector, joined to another main or intermediating sealing case. The case seals towards the pipe hanger and attaches to the upper connector that seals towards the upper section of the wellhead and attaches to the protective bushing or the upper sealing case to ensure control of well's pressure during its operation or reparation in case of leaks or failures.

A modular safety apparatus adapted to allow the flow and create a mechanical seal for a series of electric conductors in wellheads, thus, ensuring pressure control and internal hydraulic integrity and allowing for a method to repair leaks and/or conductor cables that does not require the use of specialized well maintenance equipment, comprising a sealing case attached to a lower connector, joined to another main or intermediating sealing case. The case seals towards the pipe hanger and attaches to the upper connector that seals towards the upper section of the wellhead and attaches to the protective bushing or the upper sealing case to ensure control of well's pressure during its operation or reparation in case of leaks or failures.

A grommet assembly includes a wire harness and a grommet including a hollow channel configured to receive the wire harness therein. At least one rib extends inwards from and substantially annularly about the interior surface of the hollow channel. At least one port configured to fluidly couple the hollow channel with an exterior environment is defined by the grommet. Material is injected into the channel through the port to secure the grommet relative to the wire harness. The material injected into the channel flows through interstices located between adjacent wires that define the wire harness so as to encapsulate the wires. The injected material also flows into other voids and openings located within the hollow channel. Upon setting, the injected material is configured to prevent movement of the grommet relative to the wire harness and to prevent the passage of contaminants through the grommet assembly.

A system includes a partition element (4) and a first component (1) which is arranged on a first side of the partition element (4). The first component (1) includes at least one conductor (9), and the partition element (4) includes an associated feedthrough (5) for inserting and feeding through the conductor (9) and for electrically contacting the conductor (9) on a second side of the partition element (4) located opposite the first side. The conductor (9) forms a form-fitting connection to the feedthrough (5) and is pressed into the feedthrough (5).

A system includes a partition element (4) and a first component (1) which is arranged on a first side of the partition element (4). The first component (1) includes at least one conductor (9), and the partition element (4) includes an associated feedthrough (5) for inserting and feeding through the conductor (9) and for electrically contacting the conductor (9) on a second side of the partition element (4) located opposite the first side. The conductor (9) forms a form-fitting connection to the feedthrough (5) and is pressed into the feedthrough (5).

A system includes a partition element and a first component which is arranged on a first side of the partition element. The first component includes at least one conductor, and the partition element includes an associated feedthrough for inserting and feeding through the conductor and for electrically contacting the conductor on a second side of the partition element located opposite the first side. The conductor forms a form-fitting connection to the feedthrough and is pressed into the feedthrough.