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 including a housing and electrical conductor plating. The housing includes a first member and a second member. The first member is made of plastic and forms at least one first contact receiving channel therein. The second member is attached around the first member, and the first and second members form at least one second contact receiving channel therebetween. The electrical conductor plating is on the first member. The electrical conductor plating includes at least one first section along the at least one first contact receiving channel and at least one second section along an exterior side of the first member at the at least one second contact receiving channel. The first and second sections of the electrical conductor plating are electrically separate from one another.

An electrical connector including a housing and electrical conductor plating. The housing includes a first member and a second member. The first member is made of plastic and forms at least one first contact receiving channel therein. The second member is attached around the first member, and the first and second members form at least one second contact receiving channel therebetween. The electrical conductor plating is on the first member. The electrical conductor plating includes at least one first section along the at least one first contact receiving channel and at least one second section along an exterior side of the first member at the at least one second contact receiving channel. The first and second sections of the electrical conductor plating are electrically separate from one another.

A Peripheral Component Interconnect Express/Serial Attached SCSI (PSAS) female connector includes a frame member, a terminal member, and a cover member; the frame member including a terminal groove disposed in the frame member and a tilt portion disposed in the terminal groove adjacent to a plug end; the terminal member inserted in the frame member and including a Serial Advanced Technology Attachment (SATA) 7 pin terminal, a Serial Attached SCSI (SAS) 40 pin terminal, a 15 Pin signal terminal, a 6 Pin terminal, and a 4 Pin terminal. When the PSAS female connector is engaged with the male connector, the SATA 7 Pin terminal and the SAS 40 Pin terminal are pressed by a terminal of the male connector to be bent toward an outer lateral side of the terminal groove to contact the elastic plate of the cover member. The present invention effectively improves the cross interference during high speed transmission, thereby achieving the Generation 5 performance requirement.

PSAS 5.0 female connector includes a framework member having a main conductive plastic, a terminal member, and a cover member; the terminal member is inserted in the framework member and includes a SATA 7Pin terminal set having a SATA 7Pin terminal, a plastic frame member, and a SATA 7Pin conductive plastic; the SATA 7Pin terminal is inserted in the plastic frame member, and the SATA 7Pin conductive plastic is engaged on the plastic frame member for fastening the SATA 7Pin terminal in the plastic frame member; the cover member includes a SATA 7Pin outer cover plate stably attached to one side of the plastic frame member and a SATA 7Pin inner cover plate stably attached to another side of the SATA 7Pin conductive plastic. The present invention resolves the insufficiency of transmission rate fulfills multiple high frequency performance.

A coaxial connector includes an outer conductor portion including a polymer shell, the polymer shell defining an inner bore extending from a first open end to a second open end opposite the first open end, and a conductive layer positioned on the inner bore of the polymer shell, an outer surface of the polymer shell, or both, where the conductive layer is structurally configured to be electrically coupled to an outer conductor of a coaxial transmission medium, an electrically-insulating intermediate member positioned at least partially within the inner bore of the polymer shell, and an inner conductor portion engaged with the electrically-insulating intermediate member and positioned at least partially within the inner bore of the polymer shell, where the inner conductor portion is configured to be electrically coupled to an inner conductor of the coaxial transmission medium and electrically isolated from the conductive layer of the outer conductor portion.

A coaxial connector includes an outer conductor portion including a polymer shell, the polymer shell defining an inner bore extending from a first open end to a second open end opposite the first open end, and a conductive layer positioned on the inner bore of the polymer shell, an outer surface of the polymer shell, or both, where the conductive layer is structurally configured to be electrically coupled to an outer conductor of a coaxial transmission medium, an electrically-insulating intermediate member positioned at least partially within the inner bore of the polymer shell, and an inner conductor portion engaged with the electrically-insulating intermediate member and positioned at least partially within the inner bore of the polymer shell, where the inner conductor portion is configured to be electrically coupled to an inner conductor of the coaxial transmission medium and electrically isolated from the conductive layer of the outer conductor portion.

A connector assembly includes an insulative housing, first and second conductive ground wafers (see e.g., 661 and 663) and a plurality of grounding links. The insulative housing has a plurality of conductive signal terminals disposed therein (see e.g., 662). The insulative housing has opposite side surfaces and a plurality of openings therein extending between the side surfaces. The second ground wafer is spaced from and parallel to the first ground wafer. The grounding links are electrically connected to one of the ground wafers and extend towards another of the ground wafers and extend through the openings in the housing.

A connector assembly includes an insulative housing, first and second conductive ground wafers (see e.g., 661 and 663) and a plurality of grounding links. The insulative housing has a plurality of conductive signal terminals disposed therein (see e.g., 662). The insulative housing has opposite side surfaces and a plurality of openings therein extending between the side surfaces. The second ground wafer is spaced from and parallel to the first ground wafer. The grounding links are electrically connected to one of the ground wafers and extend towards another of the ground wafers and extend through the openings in the housing.

A connector to be connected to a circuit board includes a signal terminal, a tubular shield portion for covering an outer periphery of an intermediate part of the signal terminal, a housing for holding the signal terminal, and an alignment plate to be joined to the housing. The signal terminal includes a first end part fixed to the housing and a second end part extending from the first end part toward the circuit board. The second end part includes a connecting portion projecting from an end surface of the shield portion. The alignment plate includes a plate body to be arranged between the housing and the circuit board. The plate body has a first region formed with a positioning hole into which the connecting portion is inserted. The conductive portion is formed of conductive rubber or conductive resin.