An electrical connector and electrical connector assembly. The electrical connector comprises a connector and a securing member. The connector comprises a body and a connecting terminal port. The connecting terminal port is disposed at one side of the body. The securing member comprises a securing part and a clamping part. The securing part is assembled on the body and is disposed at one side of the connecting terminal port. The clamping direction of the clamping part is identical to the opening direction of the connecting terminal port. The circuit board is connected to the connecting terminal port, and the clamping part of the securing member is used to clamp and secure the circuit board. The securing member can be assembled according to the shape and structural configuration of the body of the connector through a component of the securing member corresponding to one side of the body of the connector.

A subassembly for efficiently and reliably assembling a high performance electronic device. The electronic device may include numerous cabled interconnects in a subassembly that is subsequently mechanically and electrically connected to a PCB populated with high performance electronic components. First ends of cables in the cabled interconnects may be terminated by a first type of connector configured for connection to the PCB via a downward force. The second ends of the cables may be terminated with a second type of connectors that may make connections to other portions of an electronic system incorporating the electronic device. The connectors at the first ends of the cables may be releasably held within an organizer. The connectors may be simply mounted to the PCB by positioning the organizer with respect to the PCB, releasing the connectors from the organizer, and pushing the connectors into engagement with mounting locations on the PCB.

A memory module testing system operating in a vibratory environment can retain a memory module in place in a memory socket using both socket latches and a retainer clip. The retainer clip can attach to a module support tower of the memory socket. The retainer clip can have a flexible multi-spring structure forming a three-axis vibration dampening system that can prevent the socket latches from opening while testing in the test environment. The retainer clip can secure the socket latches using an upper flange and a lower flange to prevent unintended motion of the socket latches. The retainer clip can be secured to the module support towers at the ends of the memory socket using clip arms and clip arm tips to attach to the module support towers.

Systems and methods for an electrical connector (e.g., of a vehicle) include a housing and a terminal at least partially disposed in the housing, defining a set of angled blade terminals, and configured to electrically connect to (i) an electrical system along a first axis and (ii) a set of exposed conductive circuit traces of a flexible circuit (FC) arranged along a second axis, wherein an acute angle is defined between the first and second axes and corresponds to the set of angled blade terminals.

A terminal block includes an insulative seat, a flexible arm latch and a slider. The insulative seat has a slot and a sliding trough. A longitudinal direction of the sliding trough is parallel to a depth direction of the slot. The flexible arm latch is disposed on the insulative seat. A longitudinal direction of the flexible arm latch is parallel to the depth direction of the slot. The flexible arm latch has a first interfering portion and a hook. The slider is disposed in the sliding trough and longitudinally movable along the sliding trough. The slider has a second interfering portion. Either the first interfering portion or the second interfering portion is a slope. The first and second interfering portions abut against each other to push the slope to deflect the flexible arm latch to make the hook retract when the slider is traveling toward the slot.

A PSAS 5.0 female connector includes a framework member having a main conductive plastic, a terminal member, and a cover member; the terminal member is inserted in the framework member and includes a SATA 7Pin terminal set having a SATA 7Pin terminal, a plastic frame member, and a SATA 7Pin conductive plastic; the SATA 7Pin terminal is inserted in the plastic frame member, and the SATA 7Pin conductive plastic is engaged on the plastic frame member for fastening the SATA 7Pin terminal in the plastic frame member; the cover member includes a SATA 7Pin outer cover plate stably attached to one side of the plastic frame member and a SATA 7Pin inner cover plate stably attached to another side of the SATA 7Pin conductive plastic. The present invention resolves the insufficiency of transmission rate fulfills multiple high frequency performance.

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 cable-end connector, a board-end connector and an assembly thereof are provided. The assembly of the cable-end connector and the board-end connector includes a cable-end connector and a board-end connector. The cable-end connector includes an outer casing, a first contact member, a second contact member, two cables and a first locking structure. The board-end connector is used to mate with the cable-end connector, and the board-end connector includes a circuit board, a third contact member, a fourth contact member and a second locking structure. By that the first contact member and the second contact member are arranged diagonally and the third contact member and the fourth contact member are arranged diagonally, the cable-end connector and the board-end connector can be reduced in width along a lateral direction, and designed spaces respectively for the first locking structure and the second locking structure can be reserved, in turn a space of the cable-end connector and a space of the board-end connector can be used effectively.

PSAS 5.0 female connector includes a framework member having a main conductive plastic, a terminal member, and a cover member; the terminal member is inserted in the framework member and includes a SATA 7Pin terminal set having a SATA 7Pin terminal, a plastic frame member, and a SATA 7Pin conductive plastic; the SATA 7Pin terminal is inserted in the plastic frame member, and the SATA 7Pin conductive plastic is engaged on the plastic frame member for fastening the SATA 7Pin terminal in the plastic frame member; the cover member includes a SATA 7Pin outer cover plate stably attached to one side of the plastic frame member and a SATA 7Pin inner cover plate stably attached to another side of the SATA 7Pin conductive plastic. The present invention resolves the insufficiency of transmission rate fulfills multiple high frequency performance.

A fixing member 40 includes a housing mounting portion 60 to be mounted into a housing 20 and a board locking portion 70 projecting from the housing mounting portion 60 and to be locked to a circuit board 12. The board locking portion 70 includes a resiliently deformable spring portion 71 formed by bending a part protruding in a width direction intersecting a projecting direction from the housing mounting portion 60 and a board contact portion 71 disposed on a side closer to a tip than the spring portion 71 in a projecting direction of the board locking portion 70 and configured to contact the circuit board. The spring portion 71 is arranged inwardly in the width direction of both end parts on outer sides in the width direction of the housing mounting portion 60 in a developed state of the spring portion 71.