A connector that enables electronic assemblies to be efficiently configured for any of multiple power requirements. The connector may have a mating interface, which may mate with a power supply, a mounting interface for attaching the connector to a PCB and a power tap off interface. The power tap off interface enables distribution of a portion of the power received through the mating interface to remote locations on the PCB. Terminals with portions at each of the mating interface, mounting interface and power tap off interface may be formed from subassemblies, with conductors of one terminal subassembly engaging conductors of another subassembly. One subassembly may have conductors with mating contact portions at one end and a body portion with holes at the other end. Another subassembly may have conductors with tails passing through and engaging the holes in the body portion of the other.

A card edge connector with latches that improve the connector's reliability. The connector comprises a housing having a slot elongated in a longitudinal direction and a pair of towers disposed on opposite ends of the housing and extending in a vertical direction. A pair of latches are disposed in the towers, respectively. Each latch has a groove disposed above the respective tower for receiving a flange of a card inserted in the slot. Each latch has a clip disposed in its groove for engaging the flange of the card. The clips are configured to restrain movement of the card in the longitudinal direction, the vertical direction, and a transverse direction perpendicular to the longitudinal and vertical directions when the latches are in locked positions. Such a configuration enables more reliable connections and improves the connector's shock resistance while being compatible with cards having a variety of thicknesses.

A card edge connector includes a housing configured to be mounted to a host circuit board and having a card slot at the front configured to receive a card edge of a module circuit card of the pluggable module. A contact assembly is received in a cavity of the housing having cable contacts arranged in an upper contact set and lower contact set. An upper ground bus bar is electrically connected to terminating ends of the ground contacts of the upper contact set and a lower ground bus bar is electrically connected to the ground contacts of the lower contact set. A ground element is coupled to the upper ground bus bar or the lower ground bus bar and includes a board termination component configured to be terminated to the host circuit board to electrically connect the corresponding ground bus bar to the host circuit board.

Provided is a connector which includes: a fixed housing; a movable housing in the fixed housing which mates with a counterpart connector; and a plurality of terminals held by the fixed housing and the movable housing, the plurality of terminals being configured to contact terminals of the counterpart connector, in which each of the plurality of terminals includes: a first fixed portion buried by integral molding in the fixed housing; a second fixed portion buried by the integral molding in the movable housing; an elastic portion between the first fixed portion and the second fixed portion, the elastic portion having elasticity that allows the movable housing to be displaced relative to the fixed housing; and a contact portion at an end of the second fixed portion, the contact portion having elasticity and being configured to contact the terminal of the counterpart connector mated with the movable housing.

An electrical connector assembly can include a plug connector mountable to a planar substrate and a receptacle connector configured to receive a plurality of cables and that can mate with the plug connector. The plug connector may include a first inline terminal row and a second inline terminal row exposed on a mounting face to conductively contact the planar substrate. The receptacle connector can include a plurality of terminals having termination ends aligned in common wafer plane that can be conductively terminated with the plurality of cables. The plug connector and the electrical connector are configured to establish electrical channels from the termination ends coplanar with the common wafer plan to the first and second inline terminal rows.

The present disclosure pertains to a board connector comprising a plurality of RF contacts; an insulating part; a plurality of transmission contacts coupled to the insulating part between a first RF contact and a second RF contact, such that the RF contacts are spaced from each other in a first axial direction; and a ground housing to which the insulating part is coupled, the ground housing comprising a ground inner wall, a ground outer wall, and a ground connection wall coupled to each of the ground inner and outer walls, wherein the ground inner and outer walls are double-shielding walls surrounding the side of an inner space, the RF contacts are located in the inner space surrounded by the double-shielding walls, and each of the ground inner and outer walls contacts the ground housing of a counter connector inserted into the inner space.

A guide module for use with a plug-in module assembly to properly position the plug-in module in a slot of a chassis. The guide module has a leading surface and oppositely facing trailing surface. The guide module has a top wall, a bottom wall, a first inside side wall and an oppositely facing second outside side wall. The leading surface of the guide module extends beyond a leading end of the plug-in module assembly. As the plug-in module is inserted into the chassis, the leading surface of the guide module prevents damage to other components of the plug-in module assembly.

A flat conductor electric connector mounted on a circuit board and electrically connected to a front end side portion of a band-shaped flat conductor extending in a front-back direction, comprising: multiple terminals in such a shape that metal plate members are bent in a plate thickness direction thereof; and a housing holding, by insert molding, the multiple terminals arrayed in a terminal array direction which is a band width direction, wherein each of the multiple terminals has, at least at one end portion in the front-back direction, a holding target portion held on the housing and an extending portion extending from the housing and formed with a mounting portion to be mounted on the circuit board by soldering, and the holding target portions adjacent to each other and the extending portions adjacent to each other are arrayed and positioned in the terminal array direction. The mounting portion includes an opening to receive a pin of a molding device.

This application relates to the field of power supply packaging technologies, and in particular, to a PCB-pinout based packaged module, including a packaged module and a pin exposed outside the packaged module. The packaged module includes a PCB and a power component. The PCB has a first surface and a second surface that are disposed opposite to each other, and the power component is disposed on the first surface or the second surface of the PCB. The power component performs communication connection with a pin located on one side of the first surface or one side of the second surface of the PCB through surface-layer copper of the PCB. The pin located on one side of the first surface or one side of the second surface of the PCB is a surface-layer copper etching pattern that is located on the PCB and that is exposed outside the packaged module.

A connector has a conductive member attaching portion to which an end portion of a conductive member is to be attached, and a holder portion provided with an insertion hole into which the conductive member is inserted, and a fitting hole into which the conductive member attaching portion is fitted, the fitting hole being in communication with the insertion hole, the holder portion being configured to hold the conductive member attaching portion. The holder portion is provided with engaged portions with which engaging portions, which are provided at respective ends of the conductive member in the width direction, engage. The conductive member attaching portion is provided with a closing portion configured to close a part of the insertion hole. When the conductive member attaching portion has been fitted into the holder portion, the closing portion closes a part of the insertion hole with the engaging portions engaged with the engaged portions.