Abstract: An insulation displacement contact comprises an electrically conductive contact body including a mounting portion that is configured to receive a complementary electrical component so as to contact an electrical terminal of the complementary electrical component, and a mating portion configured to attach to an electrical cable, the mating portion including a slot that extends into the contact body, and at least one piercing member that at least partially defines the slot such that, when the slot receives an electrical cable, the piercing member pierces an outer electrically insulative layer of the electrical cable and contacts an electrical conductor of the electrical cable that is disposed inside the electrically insulative layer.
Abstract: An electrical connector includes a printed circuit board that includes a body that carries a plurality of ground conductors that define respective ground contact pads, and a plurality of signal conductors that define respective signal contact pads. The contact pads are configured to mate with electrical contacts of a complementary electrical connector. The printed circuit board includes a ground coupling assembly that electrically connects at least a pair of the ground conductors.
Abstract: An electrical connector can includes a connector housing that includes a housing body and further includes at least one fulcrum supported by the housing body. The electrical connector further includes at least one electrical contact supported by the connector housing, the at least one electrical contact configured to mate with a complementary electrical contact of a complementary electrical connector. The electrical connector further includes a latch assembly. The latch assembly can include an actuator and a latch. The actuator can have an actuator portion, an attachment portion, and at least one arm that extends between the actuator portion and the attachment portion. The latch can have a latch body that defines an attachment portion that is configured to be attached to the attachment portion of the actuator, such that movement of the actuator in a predetermined direction causes the pivot member to ride along the fulcrum, thereby pivoting the latch from a latched position to an unlatched position.
Abstract: Electrical assemblies including various complementary electrical components and plurality of cables are provided. Components of the electrical assemblies are configured such that respective signal conductor ends of the plurality of electrical cables can be isolated from one another and placed in electrical communication with the complementary electrical components using a conductive material. In accordance with some embodiments, the electrical assemblies include organizers that define respective pluralities of cavities and are configured to be attached to the complementary electrical components. In accordance with another embodiment, a leadframe assembly can define a plurality of cavities.
Abstract: An electrical contact including a male termination end configured to be removably inserted into a female termination end of a mating contact. The male termination end having a slot between two beam sections. The slot is formed by a section of the male termination end having had material removed between the two beam sections. The two beam sections are outwardly deformed in opposite directions. The two beam sections are substantially parallel to each other along a majority of length of the male termination end.
Abstract: A connector assembly of a first and a complementary second connector. The assembly includes latches cooperative with respective matching locking sections at opposite sides of the assembly to hold the connectors in an assembled state. One of the connectors includes a main body and a release member which is slideable relative to the main body between a rest position and a release position. In the release position the release member disengages the latches from the respective locking sections. At least one resilient member biases the release member to the rest position.