Abstract: A cable connector assembly includes a plug for mating with a docking connector, a printed circuit board electrically connected to the plug and a cable electrically connected to the connector, the plug includes a plurality of conductive terminals, the cable includes a plurality of high speed signal cores for transmitting high speed signals and low speed signal cores for transmitting low speed signals, wherein the electrical path of the high speed signal cores connected to the corresponding conductive terminals is shorter than the electrical path of the low speed signal cores connected to the corresponding conductive terminals.
Abstract: An electrical contact includes a compliant tail defining a pair of opposite first main face and second main face, and a pair of opposite first side face and second side face linked between the first main face and the second main face. The opposite first side face and second side face are bulged for engagement with an interior surface of the corresponding through hole. A pair of first through holes and a pair of second through holes extend through both the first main face and the second main face. The first through holes are configured with an elongated configuration while the second though holes are located around two opposite upper and lower ends of the first through holes.
Abstract: The electrical connector includes an insulative housing for receiving the CPU therein with a plurality of contacts retained thereto, a fastener located beside the housing, and a load plate pivotally mounted upon the fastener and covering the housing for holding the CPU in position. The load plate includes opposite first and second sides and opposite first and fourth sides to commonly form a center opening. The first and second sides form first protrusions with corresponding first pressing sections, and the third and fourth sides forms second protrusions with corresponding second pressing sections. During operation, both the first pressing sections and the second pressing sections act upon the CPU.