An electrical connector and electrical connector assembly. The electrical connector comprises a connector and a securing member. The connector comprises a body and a connecting terminal port. The connecting terminal port is disposed at one side of the body. The securing member comprises a securing part and a clamping part. The securing part is assembled on the body and is disposed at one side of the connecting terminal port. The clamping direction of the clamping part is identical to the opening direction of the connecting terminal port. The circuit board is connected to the connecting terminal port, and the clamping part of the securing member is used to clamp and secure the circuit board. The securing member can be assembled according to the shape and structural configuration of the body of the connector through a component of the securing member corresponding to one side of the body of the connector.

A stiffener device is suitable for use with an assembly that includes an electronic mother board, an electronic daughter board, a connector for connecting the daughter board parallel to the mother board, and an element for holding in position the daughter board in relation to the mother board. The stiffener device has a main clamp configured to hold tightly the upper surface and the lateral vertical surfaces of the connector.

In a connector, a contact includes: a first connection portion and a second connection portion that are retained between a first insulator and a second insulator and face each other; and a pressing force receiving portion that makes contact with the second insulator and receives a pressing force from the second insulator to thereby press the first connection portion against the second connection portion. A connection object is sandwiched between the first connection portion and the second connection portion, and at least one of the first connection portion and the second connection portion makes contact with a flexible conductor of the connection object, whereby the contact is electrically connected to the flexible conductor of the connection object.

A board-to-board connector assembly includes first and second connector assemblies and a connector interconnect between the first and second connector assemblies. Each connector assembly includes an outer shell and a connector received in a cavity of the outer shell. The connector has a connector body holding contacts in a card slot, which receives a circuit card edge of an add-in card. The outer shell has an outer board guide configured to engage the add-in card and guide mating of the outer shell with the add-in card. The outer shell has a latch configured to latchably engage the add-in card to secure the connector to the add-in card. The connector interposer electrically interconnects the contacts of the connector assemblies to electrically connect the add-in cards.

A receptacle connector includes a metal housing configured to prevent backwards insertion of a plug. The receptacle connector has walls bounding an assembly space with an insulative body therein. One wall is distant from an exterior surface of the insulative body to form an abutting groove between the metal housing and the insulative body. The abutting groove is configured to receive an abutting wall of the plug connector. The insulative body includes mating interface configured to receive a terminal portion of a plug connector. A wall of the metal housing opposite the abutting groove is adjacent a surface of the insulative body has a projection. If a user attempts to insert the plug with the terminal portion backwards, the projection interferes with the abutting wall, preventing backwards insertion of the terminal portion of the plug into the mating interface.

High-speed connectors and connector assemblies that include structures for alignment and/or improved thermal performance.

An electrical connector assembly can include a plug connector mountable to a planar substrate and a receptacle connector configured to receive a plurality of cables and that can mate with the plug connector. The plug connector may include a first inline terminal row and a second inline terminal row exposed on a mounting face to conductively contact the planar substrate. The receptacle connector can include a plurality of terminals having termination ends aligned in common wafer plane that can be conductively terminated with the plurality of cables. The plug connector and the electrical connector are configured to establish electrical channels from the termination ends coplanar with the common wafer plan to the first and second inline terminal rows.

A connection port module includes a fixed frame and a connection port. The fixed frame includes a main body portion, a first holding portion, and a second holding portion. The first holding portion is connected to one side of the main body portion and includes a first holding surface. The second holding portion is connected to the other side of the main body portion and includes a second holding surface. The first holding surface faces the second holding surface. The connection port is disposed in the fixed frame, and is located between the first holding surface and the second holding surface. A connector is adapted to be inserted into the connection port. The first holding surface and the second holding surface are adapted to abut against the connector to fix the connector on the fixed frame.

Embodiments of the disclosure provide a cable connection structure, including: a bearing member, the bearing member being provided with at least one cable connector, and each cable connector having a first port connected to a cable and a second port electrically connected to the first port; and a sliding structure connected to the bearing member, the bearing member being configured to be connected to a single board through the sliding structure, the bearing member enabling the single board connected to the bearing member to slide in a first direction which is a direction close to or away from the second port. Embodiments of the disclosure also provide a single-board assembly and a single-board assembly connection structure.

In a connecting method, when a flexible conductor is exposed on a top surface of a connection object, a contact is disposed on the top surface of the connection object at the predetermined position in a state where the connection object is kept as it is, and when the flexible conductor is exposed on a bottom surface of the connection object, the contact is disposed on the top surface of the connection object at the predetermined position in a state where a part of the connection object where the connection part is disposed is inverted such that the connection part faces a top surface side of the connection object while being retained at the predetermined position.