Technologies for providing shared memory for accelerator sleds includes an accelerator sled to receive, with a memory controller, a memory access request from an accelerator device to access a region of memory. The request is to identify the region of memory with a logical address. Additionally, the accelerator sled is to determine from a map of logical addresses and associated physical address, the physical address associated with the region of memory. In addition, the accelerator sled is to route the memory access request to a memory device associated with the determined physical address.

A floating connector and an assembly thereof are provided. The floating connector includes: a center conductive structure which includes a main body, a contact pin which is movably mounted in a front portion of the main body and a center spring which is mounted between the contact pin and the main body, a rear portion of the main body is provided with a mating cavity, an elastic mating portion is provided in the mating cavity and is capable of elastically deforming in a radial direction which is perpendicular to a front-rear direction; an insulative body which surrounds an outer circumference of the center conductive structure; and an outer conductive structure comprising a first conductive shell which is provided to an outer circumference of the insulative body, a second conductive shell which is movable, and an outer spring which is positioned between the first conductive shell and the second conductive shell, at least one of the first conductive shell and the second conductive shell is provided with an elastic contact arm, and the first conductive shell and the second conductive shell maintain electrical contact via the elastic contact arm. The present disclosure can promote stability of electrical contact.

A socket strengthener, a board-to-board socket, and a board-to-board connector assembly. The socket strengthener (60) comprises a main body part (61), top surface cover parts (66) and lateral outer peripheral wall cover parts (64) formed by extending from the main body part (61), elastic arm parts (65) curving backwards from the ends of the lateral outer peripheral wall cover parts (64) and extending to the inner sides of the lateral outer peripheral wall cover parts (64). The top surface cover parts (66), on the side adjacent to the elastic arm parts (65) bend downward to form guide parts (662). Viewed from top to bottom, the guide parts (662) do not overlap with the elastic arm parts (65), and the bottoms of the guide parts (662) are lower than the tops of the elastic arm parts (65). The board-to-board socket comprises a socket body, a socket terminal, and the socket strengthener. The board-to-board connector assembly comprises the board-to-board socket and a plug matched therewith. Guide parts are formed by means of a bending downward on the lateral outer side of the top surface cover parts of the socket strengthener, and elastic arm parts are formed by means of a backwards bending of the free ends of the lateral outer peripheral wall cover parts. The elastic arm parts and the guide parts are displaced in lateral directions so as to increase the length by which the guide parts extend downwards, causing the guide parts to be able to protect the elastic main arm of the elastic arm part throughout the entirety of an insertion process.

A furcated driveline connector configured to couple to an implantable blood pump.

A furcated driveline connector configured to couple to an implantable blood pump.

A connector assembly includes a housing with a terminal cavity and a terminal lock adapted to retain an electrical terminal in the terminal cavity. A terminal position assurance is attached to the housing and engages the terminal lock. The connector assembly also includes a protector plate with a protector body having a front plate face and an opposed back plate face. Terminal openings pass through the protector body. A plurality of staged locks are attached to the protector body for relative rotational movement. The staged locks extending beyond the front plate face and also extending beyond the back plate face. The protector plate is movable relative to the housing in a mate direction from a pre-stage position to a pre-lock position. The protector plate is retained in the pre-lock position relative to the housing against further movement in the mate direction by a staged lock.

A connector device includes a motor-side connector 30 including a motor-side terminal 31, an inverter-side connector 60 including an inverter-side terminal 70, a motor case 10 including the motor-side connector 30, and an inverter case 50 including the inverter-side connector 60, the connectors 30, 60 being fitted together when the inverter case 50 is stacked on and fastened to the motor case 10 using bolts 120. When the fastening of the cases 10, 50 is completed, a predetermined gap is ensured between opposing surfaces 36B, 80A of the connectors 30, 60.

There is provided a cable including at least one optical fiber cable, at least two electrical cables provided so as to sandwich the optical fiber cable, and plugs positioned at both ends and each having an electrical contact part connected to each of the electrical cables.

The present invention concerns a plug intended to be mounted on at least one cable whose one end supports one or more contacts comprising: a body, comprising: a front portion extending along a longitudinal axis, the front portion being designed to be lodged in a socket, the front portion being adapted to lodge and hold the contact(s) or at least an optoelectronic converter connected to the contact(s); a rear portion forming a sheath, designed to lodge the end of the cable, itself supporting the contact(s); the rear portion being mounted floating about the front portion; a plurality of flexible tabs made of electrically conductive material, distributed on the outer periphery of the front portion, the flexible tabs being adapted to remain in mechanical contact with the interior of the socket when the front portion is lodged in the latter.

The plug shell of the electrical connector includes the accommodation portion for accommodating the contact pin and the housing that holds the contact pin, the insertion port for inserting the contact pin and the housing into the accommodation portion, the lid member for closing the insertion port, and the hold mechanism for holding the lid member. The hold mechanism includes the pedestal, on which the lid member is placed, and the pair of hold pieces, which hold the lid member on the pedestal by pressing. The pair of hold pieces press the end portions of the lid member toward the pedestal, so that thereby a stress that urges the end portions to become distant from the pedestal is generated in the lid member.