Abstract:
Cable assembly includes a communication cable having first and second insulated wires. Each of the first and second insulated wires has a signal conductor and an insulation layer that surrounds the signal conductor. The cable assembly also includes a circuit carrier that is coupled to the communication cable and has first and second signal pathways. Each of the first and second signal pathways includes a leading conductive surface and a trailing conductive surface that are separated from each other. The signal conductors of the first and second insulated wires are coupled to the trailing conductive surfaces of the first and second signal pathways, respectively. Each of the first and second signal pathways includes a corresponding signal-control component that electrically couples the separated leading and trailing conductive surfaces.
Abstract:
Electrical connector assembly includes a housing assembly having first and second housing shells that are coupled to each other along a housing seam and define an interior cavity therebetween. The housing seam extends along a three-dimensional (3D) path. The electrical connector assembly also includes an electrical connector having a back end that is disposed within the interior cavity and a front end that is configured to mate with an external mating connector. The electrical connector also including a conductive gasket having a 3D gasket frame that substantially matches the 3D path of the housing seam. The 3D gasket frame being a discrete structure that is positioned along the housing seam to reduce electromagnetic interference (EMI) leakage through the housing seam.
Abstract:
Electrical connector including a module assembly having a contact module. The contact module has a module body and signal conductors held by the module body. The module assembly has a shroud-engaging face. The signal conductors have respective signal members disposed along the shroud-engaging face. The electrical connector also includes a connector shroud that couples to the module assembly. The connector shroud has a mating side, a loading side, and a mating axis extending therebetween. The connector shroud includes contact passages that extend therethrough. The loading side interfaces with the shroud-engaging face. The connector shroud couples to the module assembly in first or second rotational positions about the mating axis. The contact passages align with the signal members for each of the first and second rotational positions.
Abstract:
Electrical connector assembly including an electrical connector having signal contacts and ground contacts that are coupled to a connector housing and disposed along a mounting side of the connector housing. The electrical connector assembly also includes a contact organizer that is positioned along the mounting side of the connector housing. The contact organizer has signal windows and ground passages extending therethrough that are defined by respective inner surfaces of the contact organizer. The ground contacts engage the inner surfaces of the ground passages when the contact organizer is held in a pre-loaded position away from the mounting side. The contact organizer moves to a seated position against the mounting side when the electrical connector is mounted to the circuit board. Each of the signal contacts is surrounded by an air gap that exists between the signal contact and the inner surface of the corresponding signal window.
Abstract:
A connector assembly includes contact modules each having a wafer, a first ground frame extending along a first side of the wafer and a second ground frame extending along a second side of the wafer. The wafer has a dielectric body holding a plurality of signal contacts. The first ground frame has beams extending from a front of the first ground frame. The second ground frame has shields at least partially surrounding corresponding mating portions of the signal contacts. Each first ground frame is mechanically and electrically connected to an adjacent second ground frame of an adjacent contact module. Each second ground frame is mechanically and electrically connected to an adjacent first ground frame of an adjacent contact module.
Abstract:
A backshell includes an upper shell, a lower shell and a fastener coupled to the upper shell and coupled to the lower shell to hold the upper shell and the lower shell together and resist separation of the upper shell from the lower shell. The upper shell defines a portion of a cavity of the backshell and includes a top wall and an upper shell side wall extending from the top wall to a bottom of the upper shell. The lower shell defines another portion of the cavity of the backshell. The lower shell includes a bottom wall and a lower shell side wall extending from the bottom wall to a top of the lower shell. The top of the lower shell generally mates with the bottom of the upper shell at a mating plane. The fastener extends along a longitudinal axis generally parallel to the mating plane.
Abstract:
Electrical connector including a connector body having a mating side with a communication array of signal and ground contacts and first and second mounting sides with respective mounting arrays of signal and ground contacts. Each of the first and second mounting sides is configured to be mounted to a corresponding circuit board. The connector body includes signal and ground conductors that extend through the connector body and communicatively couple the communication array to each of the mounting arrays. The mating side faces along a mating axis and the first and second mounting sides face in opposite directions along a mounting axis. The mating and mounting axes are perpendicular to each other.
Abstract:
A connector assembly includes contact modules each having a wafer, a first ground frame extending along a first side of the wafer and a second ground frame extending along a second side of the wafer. The wafer has a dielectric body holding a plurality of signal contacts. The first ground frame has beams extending from a front of the first ground frame. The second ground frame has shields at least partially surrounding corresponding mating portions of the signal contacts. Each first ground frame is mechanically and electrically connected to an adjacent second ground frame of an adjacent contact module. Each second ground frame is mechanically and electrically connected to an adjacent first ground frame of an adjacent contact module.
Abstract:
Cable assembly is provided that includes a communication cable having first and second insulated wires. Each of the first and second insulated wires has a signal conductor and an insulation layer that surrounds the signal conductor. The cable assembly also includes a circuit carrier that is coupled to the communication cable and has first and second signal pathways. Each of the first and second signal pathways includes a leading conductive surface and a trailing conductive surface that are separated from each other. The signal conductors of the first and second insulated wires are coupled to the trailing conductive surfaces of the first and second signal pathways, respectively. Each of the first and second signal pathways includes a corresponding signal-control component that electrically couples the separated leading and trailing conductive surfaces.
Abstract:
Electrical connector including a module assembly having a contact module. The contact module has a module body and signal conductors held by the module body. The module assembly has a shroud-engaging face. The signal conductors have respective signal members disposed along the shroud-engaging face. The electrical connector also includes a connector shroud that couples to the module assembly. The connector shroud has a mating side, a loading side, and a mating axis extending therebetween. The connector shroud includes contact passages that extend therethrough. The loading side interfaces with the shroud-engaging face. The connector shroud couples to the module assembly in first or second rotational positions about the mating axis. The contact passages align with the signal members for each of the first and second rotational positions.