A right angle coaxial connector includes: an inner contact comprising a post configured to mate with the inner conductor body of a mating coaxial cable jack, the inner contact further including a finger having a pin, the pin extending in a direction generally perpendicular to the post; an outer conductor body including a housing section and a mating ring configured to mate with the outer conductor body of the mating coaxial cable jack; a first dielectric spacer interposed between the post of the inner contact and the mating ring of the outer conductor body; and a second dielectric spacer interposed between the housing section of the outer conductor body and the finger of the inner contact. The second dielectric spacer includes a slot in which the finger and at least a portion of the pin reside.

The present invention discloses a waterproof device for connecting branch wire with main wire, which comprises a housing component with a double-station structure and two puncture locking screw components matched with the housing component, wherein the housing component consists of a housing and a first insulation sealant in a branch wire hole thereof, and the puncture locking screw component consists of a hexagon screw, a metal spike, a second insulation sealant and a cover plate. The device provided by the present invention is compact in structure, does not need to peel the jackets of the main wire and the branch wire during connection, and the connection is quick with good performance of waterproof and insulation.

A connector structure (100) for a flexible light strip (10) includes a cable joint (110) and an insulation body (200). The cable joint (110) includes a housing (120) and a plurality of conductive terminals (130) assembled in the housing (120). Each of the conductive terminals (130) includes a piercing portion (150). The insulation body (200) has a first end (210) and a second end (220) communicating with the first end (210). The flexible light strip (10) is inserted into the first end (210), and the housing (120) is inserted into the second end (220). The piercing portion (150) is parallel to the flexible light strip (10) and correspondingly pierces the flexible light trip (10) to be electrically coupled to the same. Therefore, the connector structure (100) achieves fast assembly and improves efficiency and reliability for connection.

Coaxial cable-connector assemblies include: a coaxial cable having: an inner conductor having a termination end including a bore; a dielectric layer that overlies the inner conductor; and an outer conductor that overlies the dielectric layer having a termination end; a right angle coaxial connector including: an inner conductor body with a post configured to mate with the inner conductor body of a mating jack, the inner conductor body further including a receptacle that receives the termination end of the inner conductor such that the post is generally perpendicular to the inner conductor; an outer conductor body configured to mate with the outer conductor body of the mating coaxial cable jack and electrically connected with the termination end of the outer conductor; and an expansion member inserted into the bore of the termination end of the inner conductor sized and configured to radially expand the termination end of the inner conductor.

Coaxial cable-connector assemblies include: a coaxial cable having: an inner conductor having a termination end including a bore; a dielectric layer that overlies the inner conductor; and an outer conductor that overlies the dielectric layer having a termination end; a right angle coaxial connector including: an inner conductor body with a post configured to mate with the inner conductor body of a mating jack, the inner conductor body further including a receptacle that receives the termination end of the inner conductor such that the post is generally perpendicular to the inner conductor; an outer conductor body configured to mate with the outer conductor body of the mating coaxial cable jack and electrically connected with the termination end of the outer conductor; and an expansion member inserted into the bore of the termination end of the inner conductor sized and configured to radially expand the termination end of the inner conductor.

A terminal to be connected to a front end part of a wire in an extending direction is provided with a terminal body for sandwiching the wire, and a slide member slidable with respect to the terminal body along the extending direction of the wire. The terminal body is formed by a worked metal plate material and includes a sandwiching portion for sandwiching the wire. The sandwiching portion includes a first holding protrusion formed by folding the metal plate material on a side edge intersecting the extending direction of the wire, projecting toward the wire and configured to contact the wire and a second holding protrusion formed to be located forward of the first holding protrusion in the extending direction of the wire by folding the metal plate material on a side edge along the extending direction of the wire, projecting toward the wire and configured to contact the wire.

A method for manufacturing an implantable lead includes: providing an annular first electrode and an annular second electrode, a diameter of an inner surface of the first electrode being larger than a diameter of an outer surface of the second electrode; providing a wire comprising an electrically conductive core, the core being surrounded by an electrically insulating sheathing in a sheathed wire portion; aligning both electrodes; positioning at least a part of the sheathed wire portion opposite to the inner surface of the first electrode and/or to the outer surface of the second electrode; connecting the wire to both electrodes by pressing the electrodes together along a common central axis, wherein an axial force is applied to the sheathed wire portion by both electrodes so that at least part of the sheathing is removed from the core.