A terminal module includes a number of conductive terminals. Each conductive terminal includes a contact portion. The conductive terminals include differential signal terminals. Each differential signal terminal includes a first extending portion, a torsion portion, and a second extending portion perpendicular to the first extending portion. The differential signal terminals include a first signal terminal and a second signal terminal. Most of the two first extending portions of the differential signal terminals are narrow-side coupled, and small parts are wide-side coupled. The second extending portions of the differential signal terminals are narrow-sided coupled. The present disclosure also discloses a backplane connector having the terminal module. Compared with the prior art, the present disclosure can make the differential signal terminals tightly coupled, thereby stabilizing the insertion loss.

A power supply assembly includes a power supply unit disposed within a housing and an adjustable plate module movably disposed on a floor thereof. The adjustable plate module includes a plate, a shaft, a stopper panel, and a compressible device. The plate has two planar surfaces positioned at different heights with respect to the floor. The shaft is fixedly coupled to and extends outwardly from the plate. The shaft is configured to move between a first position and a second position to transition a connector between the planar surfaces. The stopper panel is disposed adjacent to a distal end of the shaft and has an opening therein for accommodating the shaft. The compressible device is disposed around the shaft such that a displacement of the plate causes the compressible device to compress against the stopper panel and facilitate movement of the shaft from the first position to the second position.

A connector including an insulating housing, a plurality of terminals arrayed and held on the housing, and a conductive shell, wherein the housing is positioned within the shell in island form. The shell is formed of a single metal plate, and includes a peripheral wall surrounding the housing, bottom plates extending from lower ends of the peripheral wall on a side of mounting to the board to inside of the peripheral wall, and a pair of supporting pieces extending from the bottom plates and supporting the housing. The pair of supporting pieces are formed by being raised from the bottom plates so as to respectively conform to side surfaces of the housing that are opposite each other, and then being folded with their tips press-fit in the housing. The peripheral wall is of a single-ply structure of the metal plate without a seam throughout a periphery thereof.

A card edge connector for high bandwidth transmission. The connector may include a housing having a groove between two walls. The walls may include slots holding terminals of the connector. The terminals of the connector may each include a mating contact portion, a mounting contact portion opposite the mating contact portion, a bearing portion extending from the mounting contact portion and fixed in the housing, and a beam extending from the bearing portion. The beams may be configured to flex when the mating contact portions make contact with pads on a card. The terminals may each include a curved transition portion between the mating contact portion and the beam so as to prevent the beam from touching the card. The housing may include holes through the walls between mating contact portions of selected adjacent terminals. Such a configuration reduces impedance mismatch at the mating interface and therefore improve signal integrity.

A PCIe/SAS connector structure includes a female part and a male part; the female part is engaged with the male part; wherein the female part has a female plastic member, a female cover, a female signal terminal part, a fix pin and a female signal and power terminal; wherein the male part has a male plastic member, a male cover, a male signal and power terminal, a male terminal, and a fix plate; wherein the female cover is in a full-wrap structure; wherein the female cover has a protruding elastic plate, respectively; wherein the male terminal is formed in an L shape; two male terminals are fixed as a set by a plastic; the male terminal is inserted to be positioned in the male cover; wherein the male cover is formed in an L shape in a full-wrap structure. Interference performance of signal terminal is improved.

An electrical connector and a manufacturing method for the same. The electrical connector comprises a housing member and a plugging module. One end of the housing member is provided with a mating interface. An accommodating space communicating with the mating interface is provided in the housing member. The plugging module comprises a first circuit board, a plurality of electrical conductors and a plurality of first soldering pads. The first circuit board is disposed in the accommodating space. The first circuit board comprises a first surface and a second surface opposite to the first surface. The plurality of electrical conductors are disposed on the first surface and/or the second surface and is close to the mating interface. The plurality of first soldering pads are disposed on the second surface and are electrically connected with the plurality of electrical conductors.

A connector for use with high-speed signals. The connector may include a row of conductive elements comprising signal conductors and ground conductors. A signal conductor may include a mating end, a mounting end opposite the mating end, and an intermediate portion extending therebetween. A ground conductor may include a shell at least partially encircling intermediate portions of a group of signal conductors, with openings that expose contact surfaces of the signal conductors at the ends. The ground conductors may include contact members aligned with the mating contact surfaces of the signal conductors. Each shell may be coupled to a ground mounting location on each side of a respective group of signal conductors, with adjacent shells sharing a ground mounting location. Such a configuration may meet signal integrity requirements in connectors designed for 64 Gbps and beyond, while conforming to a standard that constrains mating and mounting interfaces.

A housing having terminals held thereon is positioned within a shell in island form. The shell is formed of a single metal plate, and includes a peripheral wall surrounding the housing, bottom plates, a pair of first retaining pieces, and two pairs of second retaining pieces. The first retaining pieces respectively include raised portions to conform to side surfaces of the housing, extension portions positioned on upper surfaces of the housing, and press-fitting portions. The press-fitting portions are press-fit into holes formed in the upper surfaces. Each pair of the second retaining pieces are positioned on the opposite sides of the first retaining piece, and fitted in step portions which are at the opposite ends, in the width direction, of the side surfaces of the housing. The second retaining pieces protrude from the upper surfaces and, in the width direction, protrude from the housing.

In a connector assembly in which a first connector that includes a first insulator, first terminals, and a first shell and is mounted on a first board and a second connector that includes a second insulator, second terminals, and a second shell and is mounted on a second board are connected with each other, a first ground pattern that has a frame-like shape and is formed on the first board is soldered to the first shell with first solder, and a second ground pattern that has a frame-like shape and is formed on the second board is soldered to the second shell with second solder. An inner space in which the first terminals and the second terminals are positioned is completely shielded from the outside without any gap.

An integrated circuit (IC) socket comprising a housing with a land side, an opposing die side, and sidewalls around a perimeter of the housing. The housing comprises a first dielectric. A plurality of socket pins extends from the land side of the housing through socket pin holes in the housing over the die side of the housing. A second dielectric is within the interstitial regions between the socket pins and sidewalls of the socket pin holes. A frame structure extends around at least a portion of the perimeter of the housing, and a mesh structure is embedded within the first dielectric. The mesh structure has plurality of mesh filaments extending between the plurality of socket pin holes and coupled to the frame structure.