A connection module includes a first assembly and a second assembly. The first assembly has a rest portion for resting thereon an exposed portion of a covered electrical wire for differential signal transmission. A cable accommodates the covered electrical wire in a jacket. The exposed portion is not covered with the jacket, exposing a covering of the covered electrical wire. The second assembly has a presser portion pressing the exposed portion rested on the rest portion against the rest portion. A position of the exposed portion is determined by combining the first assembly with the second assembly.

This connector assembly is provided with a communication cable, a tubular watertight plug, and a housing part, wherein the watertight plug is mounted on the outer circumferential surface of the communication cable, the housing part has a tubular inner circumferential surface covering the outer circumferential surface of the watertight plug and a raised section that projects out from the inner circumferential surface toward the watertight plug, and the raised section catches the watertight plug so as to oppose the slip-off direction of the watertight plug from the housing part.

This connector assembly is provided with a communication cable, a tubular watertight plug, and a housing part, wherein the watertight plug is mounted on the outer circumferential surface of the communication cable, the housing part has a tubular inner circumferential surface covering the outer circumferential surface of the watertight plug and a raised section that projects out from the inner circumferential surface toward the watertight plug, and the raised section catches the watertight plug so as to oppose the slip-off direction of the watertight plug from the housing part.

A clamping screw device has a clamping screw extending in an axial direction and including a screw head that is rotatable, a screw body, and a screw foot. The clamping screw device has an electrical insulation on an outside of the screw head. The electrical insulation accommodates an electromagnetic shielding and/or a seal.

A clamping screw device has a clamping screw extending in an axial direction and including a screw head that is rotatable, a screw body, and a screw foot. The clamping screw device has an electrical insulation on an outside of the screw head. The electrical insulation accommodates an electromagnetic shielding and/or a seal.

A method for connecting a cable to a connector (1001), and a cable connected to the connector (1001), for use in improving an anti-interference capability at a position where the cable is connected to the connector (1001) and between cable core conductors (1002), thereby improving a transmission rate and transmission power of a cable having a connector. The method of embodiments comprises: baring a preset length of a cable core conductor (1002) in a cable; connecting the cable core conductor (1002) to a connector (1002); cladding the connected bare cable core conductor (1002) using an electromagnetic shielding film (1003) to effectively reduce signal crosstalk between cable cores, the electromagnetic shielding film (1003) at least comprising a first metal layer (A), a conductive layer (B), and a protective film (C), wherein the first metal layer (A) is used for shielding electromagnetic interference, the conductive layer (B) is provided on the first metal layer (A) to shield electromagnetic interference, and the protective film (C) is provided on the conductive layer (B) to provide protection to the electromagnetic shielding film (1003).

A method for connecting a cable to a connector (1001), and a cable connected to the connector (1001), for use in improving an anti-interference capability at a position where the cable is connected to the connector (1001) and between cable core conductors (1002), thereby improving a transmission rate and transmission power of a cable having a connector. The method of embodiments comprises: baring a preset length of a cable core conductor (1002) in a cable; connecting the cable core conductor (1002) to a connector (1002); cladding the connected bare cable core conductor (1002) using an electromagnetic shielding film (1003) to effectively reduce signal crosstalk between cable cores, the electromagnetic shielding film (1003) at least comprising a first metal layer (A), a conductive layer (B), and a protective film (C), wherein the first metal layer (A) is used for shielding electromagnetic interference, the conductive layer (B) is provided on the first metal layer (A) to shield electromagnetic interference, and the protective film (C) is provided on the conductive layer (B) to provide protection to the electromagnetic shielding film (1003).

A cable assembly includes a first connector that includes a first connector housing, at least two connector conductors and at least two signal conductors included in the first connector housing, at least two connector cable conductors that are each physically connected to a respective one of the at least two connector conductors, at least two signal cable conductors each physically connected to a respective one of the at least two signal conductors, a substrate, and a memory module mounted to the substrate. The substrate and the memory module are either spaced away from the first connector or connected to a conductor in the first connector housing through an opening in the first corrector housing.

The present disclosure provides a connector assembly. The connector assembly includes a wire-end connector. The wire-end connector includes a wafer, a shield plate and a twin-ax cable. The wafer includes a frame and a terminal group. The terminal group is supported by the frame. The terminal group includes a signal terminal pair and a ground plate. The ground plate includes a ground terminal on both sides of the signal terminal pair. The shield plate is electrically connected to the ground plate. The shield plate includes an opening that penetrates the shield plate. The twin-ax cable includes a pair of conductors and a ground portion. The pair of conductors extend into the opening of the shield plate and are electrically connected to the signal terminal pair. The ground portion electrically connects at least one of the shield plate and the ground plate.

Provided are a shielded terminal and a shielded connector that can prevent a short circuit between a connection portion for an electric component and an outer conductor. A shielded terminal includes an outer conductor, a connection portion for an electric component, and an insulator, wherein the outer conductor has a crimping portion that is crimped onto an end portion of a shielded wire, a bottom surface portion in which an opening is formed forward of the crimping portion, and side surface portions provided on both the left and right sides of the bottom surface portion, the connection portion is disposed between the left and right side surface portions and formed by connecting a center conductor of the shielded wire and the electric component to each other, and the insulator has left and right side walls that are located between the connection portion and the respective side surface portions.