A cable connector includes an outer shell having a bore extending between a mating end and a cable end. The outer shell has latch pockets. The cable connector includes a shield received in the outer shell that divides the bore into chambers. The cable connector includes contact holders received in corresponding chambers. Each contact holder includes at least one contact channel and a deflectable latch having a latching head at a distal end of the latch configured to be received in the corresponding latch pocket of the outer shell to axially secure the contact holder in the outer shell. The latch has an interference bump at an inner end of the latch configured to engage the shield to press the latching head of the latch outward. The cable connector includes contacts received in corresponding contact channels of the corresponding contact holders.

A cable connector includes an outer shell having a bore extending between a mating end and a cable end. The outer shell has latch pockets. The cable connector includes a shield received in the outer shell that divides the bore into chambers. The cable connector includes contact holders received in corresponding chambers. Each contact holder includes at least one contact channel and a deflectable latch having a latching head at a distal end of the latch configured to be received in the corresponding latch pocket of the outer shell to axially secure the contact holder in the outer shell. The latch has an interference bump at an inner end of the latch configured to engage the shield to press the latching head of the latch outward. The cable connector includes contacts received in corresponding contact channels of the corresponding contact holders.

A shield device includes: a first electrical conductor; an electrical insulator that is configured to electrically insulate the first electrical conductor from a second electrical conductor; a first shield connector configured to: directly contact at least 180 degrees of a first circumference of a first shield that surrounds at least two first insulated conductors of a first section of a shielded cable; and electrically connect the first shield with the first electrical conductor; and a second shield connector configured to: directly contact at least 180 degrees of a second circumference of a second shield that surrounds at least two second insulated conductors of a second section of the shielded cable; and electrically connect the second shield with the first electrical conductor.

A shield device includes: a first electrical conductor; an electrical insulator that is configured to electrically insulate the first electrical conductor from a second electrical conductor; a first shield connector configured to: directly contact at least 180 degrees of a first circumference of a first shield that surrounds at least two first insulated conductors of a first section of a shielded cable; and electrically connect the first shield with the first electrical conductor; and a second shield connector configured to: directly contact at least 180 degrees of a second circumference of a second shield that surrounds at least two second insulated conductors of a second section of the shielded cable; and electrically connect the second shield with the first electrical conductor.

An electrical connector for high speed signals. The connector has multiple conductive elements that may serve as signal or ground conductors. A member formed with lossy material and conductive compliant members may be inserted in the connector. The conductive compliant members may be aligned with conductive elements of the connector configured as ground conductors. For a connector configured to carry differential signals, the ground conductors may separate pairs of signal conductors. The member may further include a conductive web, embedded within the lossy material, that interconnects the conductive compliant members. For a receptacle connector, the conductive elements may have mating contact portions aligned along opposing surfaces of a cavity. The conductive elements may have contact tails for attachment to a printed circuit board and intermediate portions connecting the mating contact portions and the contact tails. The conductive compliant members may press against the intermediate portions.

An electrical connector for high speed signals. The connector has multiple conductive elements that may serve as signal or ground conductors. A member formed with lossy material and conductive compliant members may be inserted in the connector. The conductive compliant members may be aligned with conductive elements of the connector configured as ground conductors. For a connector configured to carry differential signals, the ground conductors may separate pairs of signal conductors. The member may further include a conductive web, embedded within the lossy material, that interconnects the conductive compliant members. For a receptacle connector, the conductive elements may have mating contact portions aligned along opposing surfaces of a cavity. The conductive elements may have contact tails for attachment to a printed circuit board and intermediate portions connecting the mating contact portions and the contact tails. The conductive compliant members may press against the intermediate portions.

A method of assembling a connector for automotive applications, comprising the steps of: providing a cable having at least one inner conductor; connecting an elongated inner signal contact of the connector to a stripped end of the at least one inner conductor; surrounding the elongated inner signal contact by an insulating element; placing a first shielding part of the connector around a first portion of the insulating element from a first radial direction; placing a second shielding part of the connector around a second portion of the insulating element from a second radial direction generally opposite to the first radial direction; and joining the first and second shielding parts to form a shielding contact of the connector surrounding the insulating element.

A method of assembling a connector for automotive applications, comprising the steps of: providing a cable having at least one inner conductor; connecting an elongated inner signal contact of the connector to a stripped end of the at least one inner conductor; surrounding the elongated inner signal contact by an insulating element; placing a first shielding part of the connector around a first portion of the insulating element from a first radial direction; placing a second shielding part of the connector around a second portion of the insulating element from a second radial direction generally opposite to the first radial direction; and joining the first and second shielding parts to form a shielding contact of the connector surrounding the insulating element.

A connector assembly or wiring unit that includes one or more wiring cables, each cable unit including one or more wires surrounded by a cable shield, a connector backshell, and a ferrule disposed such that the one or more wires are arranged on an outer surface of the ferrule. In one embodiment, the connector assembly or wiring unit also includes a conductive shield sock electrically coupled to the connector backshell. The shield sock surrounds the ferrule and is in electrical contact with the cable shield of each of the one or more wiring cables.

A shield connector includes: a housing that includes a first engaging portion and a first facing wall; an annular sealing member; a holder that includes a second engaging portion and a second facing wall, and supports the sealing member; a tubular shell that includes a first insertion opening that the housing is inserted into, a first end face that surrounds the first insertion opening, a second insertion opening that the holder is inserted into, and a second end face that surrounds the second insertion opening, and a braid. The housing and the holder cause the first engaging portion and the second engaging portion to be engaged with each other inside the shell, cause the first facing wall to face the first end face, and cause the second facing wall to face the second end face, and the housing and the holder are coupled to each other.