A cable connection system and a method of forming the cable connection system. The cable connection system includes a base and a coupling mechanism. The base is configured to be coupled to a given cable. The given cable is configured to be connected to a given rack. The coupling mechanism is configured to couple the base with the given rack during a given connect mode of operation. The coupling mechanism includes a group of base connectors provided on a first surface of the base. The first surface is arranged to lie substantially flush with the given rack. The method includes: providing the base and coupling the coupling mechanism to the base.

A USB 3.1 Type-C stacking connector structure includes a first Type-C connector; a second Type-C connector, and a stacking seat. The first Type-C connector and the second Type-C connector are fixed onto both sides of the stacking seat respectively to form a USB 3.1 Type-C stacking connector assembly, so as to expand the transmission speed and the current performance of the Type-C and broaden the scope of applicability and the room for market development to improve the applications and economic benefits of the related product.

A connector assembly includes a shielding cover, a socket connector, and a rear cover. The shielding cover includes a plug connection channel having a rear end opening, and a top wall, two side walls and a bottom wall. Each of the side walls has a stop block protruding towards the plug connection channel. The stop block has a three-dimensional protruding structure and has an upper stop edge and a rear stop edge. The bottom wall has an insertion plate located in a rear portion and extending backwards. The socket connector is arranged in a rear section of the plug connection channel of the shielding cover by means of insertion from the rear end opening. The socket connector includes a socket housing. The socket housing has a stop block accommodation recess formed on a side surface thereof, and an insertion slot integrally formed in a bottom portion thereof. The stop block accommodation recess is used to accommodate the stop blocks on the two side walls, and the insertion plate of the shielding cover is inserted into the slot backwards. The rear cover is connected to the rear end opening of the shielding cover.

An electrical connector assembly includes an insulating body provided with an accommodating cavity, a metal member retained to the outside of the insulating body, and a first connector disposed in the accommodating cavity. The accommodating cavity has two opposite side walls. The metal member has two side plates and two urging portions respectively connected to the two side plates. The urging portions are disposed in the accommodating cavity. Each of the side walls is disposed between the corresponding urging portion and the corresponding side plate. The first connector has a first metal casing. Each of the urging portions urges the first metal casing, and each of the urging portions is located between the first metal casing and the corresponding side wall.

An electrical connector assembly includes an insulating body provided with an accommodating cavity, a metal member retained to the outside of the insulating body, and a first connector disposed in the accommodating cavity. The accommodating cavity has two opposite side walls. The metal member has two side plates and two urging portions respectively connected to the two side plates. The urging portions are disposed in the accommodating cavity. Each of the side walls is disposed between the corresponding urging portion and the corresponding side plate. The first connector has a first metal casing. Each of the urging portions urges the first metal casing, and each of the urging portions is located between the first metal casing and the corresponding side wall.

A communication system includes a plug module and a receptacle module received in a receptacle cage. The receptacle module includes a receptacle housing having a cavity that receives a contact assembly. The receptacle module includes a receptacle latch coupled to the receptacle housing having latching features at sidewalls of the receptacle housing and receptacle release tabs operably coupled to a receptacle release actuator.

A communication system includes a plug module and a receptacle module received in a receptacle cage. The receptacle module includes a receptacle housing having a cavity that receives a contact assembly. The receptacle module includes a receptacle latch coupled to the receptacle housing having latching features at sidewalls of the receptacle housing and receptacle release tabs operably coupled to a receptacle release actuator.

Combined connector receptacles, examples of which provide an upper housing having openings for tongues on each of two lower housings to simplify alignment of the tongues to a device enclosure, and inner shields around the lower housings and an outer shield around the upper housing and lower housings to provide isolation.

Combined connector receptacles, examples of which provide an upper housing having openings for tongues on each of two lower housings to simplify alignment of the tongues to a device enclosure, and inner shields around the lower housings and an outer shield around the upper housing and lower housings to provide isolation.

A module for a high-current plug and/or a high-current cable includes a coupling face coupling to a shield and an influencing device influencing an electromagnetic property of the shield.