A field terminal plug assembly including an RJ45 plug connected to a termination zone. The termination zone includes a wire cap, a rear sled, and an electrical board assembly with attached insulation displacement contacts (IDCs) electrically connected to the twisted wire-pairs of assembly cable. The wire cap is configured to terminate twisted wire-pairs of a communications cable to the IDCs when the wire cap is inserted into the rear sled. The IDCs contain at least a first and a second IDC, the first IDC having a first horizontal length and a first vertical length and the second IDC having a second horizontal length and a second vertical length. The first vertical length does not equal the second vertical length but the first vertical length plus the first horizontal length equals the second vertical length plus the second horizontal length.

An electrical connector complied with HDMI 2.1 including an insulating body, multiple terminals, and a metallic shell enclosing portions of the insulating body and the terminals is provided. The ten terminals includes a first terminal Data2+, a third terminal Data2−, a fifth terminal Data Shield, a seventh terminal Data0+, a ninth terminal Data0−, an eleventh terminal Data3 Shield, a thirteenth terminal CEC, a fifteenth terminal SCL, a seventeenth terminal DDC/CEC Ground, and a nineteenth terminal Hot Plug Detec1 arranged in an arrangement direction in sequence. The nine terminals includes a second terminal Data2 Shield, a fourth terminal Data1+, a sixth terminal Data1−, an eighth terminal Data0 Shield, a tenth terminal Data3+, a twelfth terminal Data3−, a fourteenth terminal Utility, a sixteenth terminal SDA, and an eighteenth terminal +5V Power arranged in an arrangement direction in sequence.

An electrical connector with HDMI 2.1 specification, including an insulating body, multiple terminals, and a metallic shell partially enclosing the insulating body and the terminals, is provided. The terminals include ten terminals located in an upper row and nine terminals located in a lower row. The ten terminals are sequentially a first terminal Data2+, a third terminal Data2−, a fifth terminal Data Shield, a seventh terminal Data0+, a ninth terminal Data0−, a eleventh terminal Data3 Shield, a thirteenth terminal CEC, a fifteenth terminal SCL, a seventeenth terminal DDC/CEC Ground, and a nineteenth terminal Hot Plug Detec1 along an arrangement direction. The nine terminals are sequentially a second terminal Data2 Shield, a fourth terminal Data1+, a sixth terminal Data1−, an eighth terminal Data0 Shield, a tenth terminal Data3+, a twelfth terminal Data3−, a fourteenth terminal Utility, a sixteenth terminal SDA, and an eighteenth terminal +5V Power along the arrangement direction.

A cover assembly includes a protective cover having an impedance control structure and a plurality of electrical conductors conducting electrical signals of a high-frequency data transmission. The electrical conductors extend through the protective cover in a transmission direction and are overlappingly bonded to each other at a bond location located within the protective cover. The impedance control structure adjusts an impedance of the bond location to a predefined value.

A cover assembly includes a protective cover having an impedance control structure and a plurality of electrical conductors conducting electrical signals of a high-frequency data transmission. The electrical conductors extend through the protective cover in a transmission direction and are overlappingly bonded to each other at a bond location located within the protective cover. The impedance control structure adjusts an impedance of the bond location to a predefined value.

A modular high speed, high density electrical connector configurable for use in multiple configurations, including a direct attach orthogonal configuration. The connector is assembled with modules that include shielded pairs of signal conductors with mating ends that are rotated approximately 45 degrees with respect to intermediate portions of the signal conductors. The connector may have a mating interface with receptacles in one connector and pins in the mating connector. The pins may be small diameter and may be implemented with superelastic wires so as to resist damage despite having very small effective diameter. A compact mating interface resulting from small diameter mating contact portions may enable other portions of the connector, including the shielding surrounding the signal conductors to be smaller, which may raise the resonant frequency of the connector and extend its bandwidth.

A connector assembly includes a connector and a cable connected thereto. First and second inner conductor contacts are disposed within an outer conductor sleeve of the connector. The cable has first and second insulated inner conductors. The inner conductor contacts each have a mating portion, for mating with a mating connector, and a connecting portion, in which the inner conductors are connected, with a transition portion extending therebetween. The inner conductor contacts have a first contact spacing in the mating portion and a smaller second contact spacing in the connecting portion. In the transition portion, a transition from the first to the second contact spacing occurs continuously. In an end portion of the cable, the inner conductors are disposed parallel to each other within the outer conductor sleeve and are spaced apart from each other by a conductor spacing equal to the second contact spacing.

An electrical connector includes an insulative elongated housing, and a plurality of contacts retained to the housing. The housing includes a base extending along the longitudinal direction and a mating tongue extending forwardly from the base in a front-to-back direction perpendicular to the longitudinal direction. Each contact includes a contacting/mating section exposed upon the mating tongue. The contacts include a plurality of differential-pair signal contacts and a plurality of grounding contacts alternately arranged with each other along the longitudinal direction. Each differential-pair signal contact is associated with a metallic wiping piece in front with a tiny gap so as to have the distance between the rear end of the contacting section and the front edge of the wiping piece is still equal to 3.9 mm which is regulated by the industry standard specification as a full length of the contacting section of the traditional contact.

An electrical connector includes an insulative elongated housing, and a plurality of contacts retained to the housing. The housing includes a base extending along the longitudinal direction and a mating tongue extending forwardly from the base in a front-to-back direction perpendicular to the longitudinal direction. Each contact includes a contacting/mating section exposed upon the mating tongue. The contacts include a plurality of differential-pair signal contacts and a plurality of grounding contacts alternately arranged with each other along the longitudinal direction. Each differential-pair signal contact is associated with a metallic wiping piece in front with a tiny gap so as to have the distance between the rear end of the contacting section and the front edge of the wiping piece is still equal to 3.9 mm which is regulated by the industry standard specification as a full length of the contacting section of the traditional contact.

A connector comprises a plurality of signal terminals, a plurality of ground terminals which are configured to be connected to outer conductors of cables, and a ground member which is configured to be connected to the outer conductors. The ground member has a ground portion. The signal terminals and the ground terminals are alternately arranged in a pitch direction (Y-direction) to form one terminal row. Each of the signal terminals has a first adjustment portion. Each of the ground terminals has a second adjustment portion. The signal terminals include an outer signal terminal located at an end of the terminal row. The first adjustment portion of the outer signal terminal protrudes toward the ground portion. A position of the first adjustment portion of the outer signal terminal in a perpendicular plane (XZ-plane) is equal to or overlaps with a position of the ground portion in the perpendicular plane.