A receptacle connector includes an insulative housing defining a base and a mating tongue extending from the base, the mating tongue defining a thicken step structure around a root thereof adjacent to the base; two rows of contacts disposed in the insulating housing with contacting sections exposed upon the mating tongue and mount tails out of the base; and a shielding plate embedded within the insulative housing and disposed between the two rows of contacts. The shielding plate defines a pair of locking sides for locking with an internal latch of a corresponding plug and the locking sides protruding beyond corresponding lateral sides of the mating tongue. The insulative housing and the shielding plate are integrally formed via an insert molding process while at least one row of the contacts are configured to be forwardly assembled to corresponding passageways in the insulating housing.

In a specific embodiment, a connector 100 is disclosed. The connector 100 comprises an insulative housing 102 defining a rear opening 108 for receiving a plurality of electrical wires 110 and a front opening 106 and a circuit board 104 disposed in the housing 102 and comprising a mating section 112 for mating with a corresponding mating section of a mating connector. The mating section 112 protrudes outwardly from the front opening 106 and terminates at a front edge 118 disposed between opposing side edges 114,116 of the mating section 112. The connector 100 further comprises opposing side arms 128,130 extending forwardly from opposing lateral sides 124,126 of the front opening 106 along, adjacent and beyond corresponding side edges 114,116 of the mating section 112 with a maximum separation between each side edge 114,116 and the corresponding side arm 128,130 being sufficiently small so that when the connector 100 mates with a mating connector, no portion of the mating connector can be inserted between the side edge 114,116 and the corresponding side arm 128,130. Other exemplary embodiments are also disclosed.

Discrete electronic modules, such as display tiles, designed and configured to be mosaicked and operatively connected with one another and/or to one or more differing types of discrete electronic modules. In some embodiments, the electronic modules are electrically connected together using electrical connector units that are separate and distinct from the electronic modules. In some embodiments, the connector units are connector biscuits. In some embodiments, the connector units are hub connectors. Connector units of the present disclosure can be designed and configured to allow an electronic module connected thereby and part of a panel of display tiles to be installed and removed by moving the module only in a direction normal to a viewing face of the panel at that module.

A card edge connector includes an elongated housing comprising opposite long walls and defining a card slot between the long walls, two rows of contacts retained in the long walls respectively and a ground member including two long plates retained in the long walls respectively. Each row of contacts includes ground contacts and signal contacts, the ground contacts comprises retaining sections retained in the housing, elastic sections extending upward from the retained sections with mating portions exposed to the card slot and leg sections extending downward from the retaining sections. Each of the ground contacts further comprises an engaging portion curved from the elastic section and touching corresponding long plate.

Edge component shells having reduced height portions are described herein. In one or more implementations, a computing device includes a housing configured to contain and secure componentry for the computing device. A display module for the computing device is positioned within the housing with a topside of the display module being oriented towards an outside of the housing. An edge component such as connection port, wireless radio device, sensor, or other component integrated with the computing device is configured with a shell having a reduced height portion. The edge component is arranged in the housing with the reduced height portion of the shell positioned underneath the display module such that the display module partially overlaps the shell of the edge component along an underside of the display module.

Electrically insulative organizers configured to maintain alignment of leadframe assemblies in an electrical connector are disclosed, in one example, an organizer includes a stiffener wall and a projection that extends from the stiffener wall. The electrically insulative body is sized to be inserted into a channel defined by the leadframe assemblies. In another example, an organizer includes an electrically insulative organizer body and a plurality of divider walls that are supported by the organizer body and spaced from each other along a lateral direction so as to be positioned for insertion between adjacent leadframe assemblies.

An electrical connector for mounting on a printed circuit board includes an insulative housing having an upper contact module and a lower contact module. A row of upper contacts are retained in the upper contact module and a row of lower contacts are retained in the lower contact module. The row of upper contacts and the row of lower contacts includes plural conductive contacts and a pair of grounding contacts located at opposite sides of the conductive contacts. Each conductive contact is covered by matching surfaces of the upper contact module and the lower contact module, and each grounding contact is exposed on the matching surfaces of the upper contact module and the lower contact module. A shielding plate contacts the pair of grounding contacts in an up-to-down direction.

A connector includes an insulated member, a plurality of first conductive terminals, a plurality of second conductive terminals, a shielding shell, and a metal housing. The first conductive terminals are disposed on an upper surface of the insulated member and extending rearward. The second conductive terminals are disposed on a lower surface of the insulated member, extending rearward, and located below the first conductive terminals. The shielding shell is fitted over the insulated member, and the shielding shell has a plug end and a mounting end. The metal housing has a plurality of grounding structures, the metal housing is fitted over the mounting end of the shielding shell, and the grounding structures are completely located below the second conductive terminals.

A floating connector includes a shell, a plurality of electrodes, two buckle members and a floating member. The shell has an accommodating space and a plurality of openings. The electrodes are disposed in the accommodating space and penetrate the openings to protrude from the openings. The buckle members are respectively disposed on two sides of the accommodating space. Each of the buckle members includes a fixed part, a contacting part, and an elastic part. The floating member includes a body, a plurality of electrode notches, and a bump. The electrode notches are formed on one side of the body that near the electrodes for receiving the electrodes protruding from the openings. The bump is disposed on the body and correspondingly to the notch, and the width of the bump is not greater than that of the notch, so that the bump is restricted in the notches by the guiding structure.

A PCIe/SAS female connector includes a frame body, a terminal assembly, and a cover member; the frame body including a groove disposed on an end thereof; the terminal assembly including a Serial Advanced Technology Attachment (SATA) 7 pin signal and grounding terminal inserted in the frame body and having a head portion and a foot. When the SATA 7 pin signal and grounding terminal is inserted in the frame body, the head portion is in the groove. The cover member includes an elastic plate and a foot; the elastic plate disposed on the head portion of the cover member. When the PCIe/SAS female connector is engaged with a male connector, the head portion of the SATA 7 pin signal and grounding terminal contacts the elastic plate of the cover member. The foot of the SATA 7 pin signal and grounding terminal and the foot of the cover member are welded in an identical Printed Circuit Board (PCB) pad.