A shield connector includes: a cylindrical housing that accommodates a terminal and holds the terminal; an annular seal member that seals between an outer peripheral surface of an electric wire connected to the terminal and an inner wall surface of the housing; a holder coupled to the housingalong an axial direction of the housing to support the seal member; and a conductive shell that accommodates and holds the housing and the holder coupled to each other therein, in which an outer wall portion of the housing has a protruding portion protruding outward, the holder has an engagement piece extending along the axial direction and is coupled to the housing by engaging the engagement piece with the protruding portion from an outside, and the shell has a facing surface facing the engagement piece from an outside, and regulates outward deformation of the engagement piece by the facing surface.

A shield connector includes: a cylindrical housing that accommodates a terminal and holds the terminal; an annular seal member that seals between an outer peripheral surface of an electric wire connected to the terminal and an inner wall surface of the housing; a holder coupled to the housingalong an axial direction of the housing to support the seal member; and a conductive shell that accommodates and holds the housing and the holder coupled to each other therein, in which an outer wall portion of the housing has a protruding portion protruding outward, the holder has an engagement piece extending along the axial direction and is coupled to the housing by engaging the engagement piece with the protruding portion from an outside, and the shell has a facing surface facing the engagement piece from an outside, and regulates outward deformation of the engagement piece by the facing surface.

A direct mate orthogonal connector for a high density of high speed signals. The connector may include right angle leadframe assemblies with signal conductive elements and ground shields held by a leadframe housing. High frequency performance may be achieved with members on the leadframe that transfer force between a connector housing, holding the leadframe assemblies, and a portion of the leadframe housing holding the signal conductive elements and the shields near their mounting ends. Core members may be inserted into the housing and mating ends of the conductive elements of ground shields may be adjacent the core members, enabling electrical and mechanical performance of the mating interface to be defined by the core members. The core members may incorporate insulative and lossy features that may be complex to form as part of the connector housing but may be readily formed as part of a separate core member.

Various techniques are provided for displacing air from partial discharge sensitive regions of a connector of a low partial discharge high voltage connector to other regions of the low partial discharge high voltage connector where electrical flux is reduced. A plug member is mated with a receptacle member to provide the connector, with a seal member disposed in a cavity provided by the plug member and/or the receptacle member. In response to the mating, the seal member is compressed at an initial contact region between an innermost layer and an outermost layer of the seal member. In response to the compressing, air is forced radially inward toward the innermost layer and radially outward toward the outermost layer away from the initial contact region to reduce partial discharge associated with the connector. Additional methods and systems are also provided.

A connector-equipped multicore cable includes a connector including a first end portion and a second end portion and a multicore cable including a plurality of coaxial electrical wires and connected to the first end portion. The connector includes, at the second end portion, a cover that is made of a metal and that covers a connector terminal. The plurality of coaxial electrical wires each include a first shield layer. The first shield layer and the cover are electrically connected to each other.

An electrical connector that connects circuit boards in a coplanar manner. The electrical connector includes a frame comprising a plate, and two platforms extending above the plate and substantially parallel to each other. A housing of the electrical connector holding conductive elements is coupled to the plate of the frame such that a top surface of the housing is substantially flush with top surfaces of the two platforms. The platforms of the frame have threaded holes extending therethrough such that screws can be inserted to hold one of the two platforms of the electrical connector to a first circuit board and the other one of the two platforms of the electrical connector to a second circuit board that is substantially edge aligned to the first circuit board. Such a configuration enables connecting circuit boards of various thicknesses in a coplanar manner.

An electrical connector that connects circuit boards in a coplanar manner. The electrical connector includes a frame comprising a plate, and two platforms extending above the plate and substantially parallel to each other. A housing of the electrical connector holding conductive elements is coupled to the plate of the frame such that a top surface of the housing is substantially flush with top surfaces of the two platforms. The platforms of the frame have threaded holes extending therethrough such that screws can be inserted to hold one of the two platforms of the electrical connector to a first circuit board and the other one of the two platforms of the electrical connector to a second circuit board that is substantially edge aligned to the first circuit board. Such a configuration enables connecting circuit boards of various thicknesses in a coplanar manner.

An electrical plug connector includes a plug metal shell, an insulation housing bracket, a plug grounding contact, and a grounding member. The plug metal shell encloses a tongue portion of the insulation housing bracket. The plug grounding contact is held inside the insulation housing bracket. The grounding member is disposed between the plug metal shell and the plug grounding contact and spaced from the first side of the insulation housing bracket. A connecting portion is selectively disposed on the grounding member or on the plug grounding contact. The connecting portion mechanically contacts to the grounding member and the plug grounding contact such that the grounding member is electrically connected to the plug grounding contact.

A connector assembly enables electrically safe disconnection and separation because it is possible to secure an interval between the point of time of separation of interlock terminals and the point of time of separation of power terminals when connectors are separated. The connector assembly can implement two steps of cutting power after restricting a lever in a locked state and then completely disconnecting connectors by additionally operating the lever by including an intermediate locking mechanism that restricts the lever for disconnecting connectors in a state in which interlock terminals of two connectors are separated from each other but power terminals of the two connectors are in contact with each other to disconnect and separate female and male connectors.

A system and method for efficient methods and systems for input/output port protection from electrostatic discharge events are described. In various implementations, an integrated circuit mounted on a printed circuit board includes a connector port that uses a first signal pin within a metal shell mounted on the printed circuit board and is electrically connected to a ground reference. The first signal pin is electrically connected to the ground reference though a spring pin located between itself and the shell. A user inserts a head contact of a cable into the connector port. The head contact includes a second signal pin that is floating, but becomes connected to the ground reference when brought into physical contact with the first signal pin. During later insertion, the head contact pushes the spring pin causing physical disconnection of the spring pin from the first signal pin allowing data transmission to begin.