An example electrical connector includes a body to receive a circuit board. The body includes a first end and a second end. The electrical connector also includes a first latch rotatably attaches to the first end. The electrical connector further includes a second latch rotatably attaches to the second end. The electrical connector further includes a link member attached to the body. In response to a rotation of the first latch, the link member is to slide across the body from the first latch towards the second latch to rotate the second latch.

A receptacle connector for mating with a plug connector having a mating tongue and a latch thereof, includes an insulative housing defining a mating slot extending along a longitudinal direction to receive the mating tongue of the plug connector, and an outer metallic shield defining a primary space to receive the housing and a secondary space communicatively beside the primary space to receive the latch of the plug connector. A plurality of contacts are disposed in the housing to mechanically and electrically connect to the mating tongue. An inner metallic shield is attached upon a long side of the housing to separate the primary space and the secondary space from each other in a transverse direction perpendicular to the longitudinal direction.

Various embodiments of an interconnect device and modules and systems that utilize such interconnect device are disclosed. In one or more embodiments, the interconnect device can include a printed circuit board (PCB). The PCB can include a substrate forming a resiliently deflectable element, a conductive material disposed on the substrate, and an electrical contact disposed on the resiliently deflectable element and electrically coupled to the conductive material. The interconnect device can also include a connector that includes a connecting pin configured to electrically couple with the electrical contact of the resiliently deflectable element of the PCB and cause the resiliently deflectable element to deflect when the element contacts the connecting pin.

An electrical connector for use in a compact system. The connector includes a housing having a pair of towers and an elongated slot between the towers. Each tower has an ejector, a rotator, and a locking member disposed therein. The rotator has a first arm coupled to the ejector and a second arm extending into the slot for coupling to a mating component inserted into the slot. When the first arm is pushed down by the ejector, the second arm pushes up the mating component, causing the locking member to deform so as to release the mating component. When the second arm does not push the mating component, the locking member is in its rest state and locks the mating component in the slot; Such a configuration enables the connector to unmate with a mating component without latches that move outside a perimeter of the connector.

Connector receptacles that can provide audible feedback to inform a user that a card has been properly inserted, and can include structures to protect contacts in a connector receptacle from damage due to an improper card insertion. An example can provide a connector receptacle having a click module to provide audible feedback indicating that a card has been fully inserted. Another example can provide a connector receptacle having movable contacts that can remain out of an insertion path until the card is at least partially inserted.

System for enabling circuit board surface-slot-edge connections. A main board includes a slot through its surfaces. At least one edge of the slot includes electrical contacts to the main board. An auxiliary board includes a connector component mounted on a surface that opposes a surface of the main board. When the connector component is aligned with the slot, the connector component can protrude vertically through the slot, in addition to moving laterally towards an edge of the slot. Electrical contacts on the edge of the slot can engage with electrical contacts in the connector component. This enables two boards to be arranged closely, without extending the main surface in an orthogonal or lateral direction, using a secure connection provided by a connector attached to the auxiliary board, rather than the main board.

An apparatus is provided for testing a PCIe interface on a printed circuit assembly. The apparatus can include a plurality of electrical contacts to couple to a PCIe interface of the printed circuit assembly, wherein a respective electrical contact corresponds to a pin of the PCIe interface. The apparatus can also include a plurality of resistors. Each resistor is coupled between two adjacent electrical contacts. At least one electrical contact corresponds to a ground, power, or not connected (NC) pin of the PCIe interface, thereby allowing a loopback test to determine connectivity between the pins of the PCIe interface and the printed circuit assembly.

An electrical connector assembly includes: a first frame defining plural accommodating cavities; plural transmission units partially received in the accommodating cavities, respectively, each of the transmission units comprising a card edge connector received in a corresponding accommodating cavity, a motherboard connector, and a circuit board connected with the card edge connector and the motherboard connector; and a second frame attached to the first frame; wherein the second frame presses against and hold the circuit boards in position.

An electrical connector assembly includes an electrical connector and a metal shielding shell. The electrical connector includes an insulating body and a number of conductive terminals. The insulating body includes a slot. Each conductive terminal includes an elastic abutting portion for abutting against the circuit board. The metal shielding shell includes a receiving cavity for receiving a mating connector. When the mating connector is inserted into the receiving cavity and has not yet made contact with the conductive terminals of the electrical connector, a better shielding effect can be achieved. Besides, by electrically connecting the conductive terminals and the circuit board in a mutually abutting manner, the requirement on the complexity of the circuit board manufacturing process is reduced.

A contact for a high-speed data communication interface includes a first portion configured to be coupled to a first component associated with the high-speed data communication interface, a second portion configured to be coupled to a mating contact of a second component associated with the high-speed data communication interface, and a third portion configured to provide a sliding surface when coupled to the mating contact. The sliding surface is coated with a ferromagnetic coating.