An electrical connector includes an insulative housing and two contact modules. The insulative housing has a bottom mounting portion having a cavity opening downwardly and a mating portion, the mating portion has a central mating space and a pair of side walls on both sides of the mating space, and a plurality of contact receiving passageways defined on each side wall. Each contact module has an insulator received in the cavity and a plurality of contacts insert-molded in the insulator, each contact defines a contacting arm and a soldering portion. The insulative housing defines a pair of locating portions extending downwards from two sides of the mounting portion, the distance between the pair of locating portions is smaller than an internal diameter of the cavity, a pair of demising slots are formed on an interior side of each locating portion for the contact modules passing through.

According to an embodiment, an electronic device includes a substrate, first conductors, second conductors, a connector, third conductors, an electronic component, and a first wiring. The first conductor is complied with a first USB standard. The second conductor is complied with a second USB standard. The connector is mounted on the first conductors or the second conductors. The first wiring connects one of the first conductors, one of the second conductors, and one of the third conductors.

An electrical connector includes: a longitudinal housing defining a longitudinal direction and a front-rear direction perpendicular to the longitudinal direction; a row of terminals including signal terminals and grounding terminals; and a grounding member retained in the housing and having plural first fingers and plural second fingers, wherein each of the first fingers extends in the longitudinal direction, each of the second fingers extends in the front-rear direction, and each grounding terminal is mechanically and electrically connected with a corresponding first finger and a corresponding second finger.

An electrical connector that includes a housing with an interior cavity configured to receive a card. Electrical contacts are secured across a wall of the housing within the interior cavity and are configured to matingly receive corresponding electrical contacts of the card. The plurality of electrical contacts secured across the wall of the housing are the only electrical contacts of the electrical connector. Each of the plurality of electrical contacts includes a mating interface and the mating interface of each of the plurality of electrical contacts is co-planer. Additionally, the housing includes a card slot opening and each of the plurality of electrical contacts are arranged on one side of the card slot opening.

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.

The present disclosure disclosed a terminal assembly comprising a first terminal module and an electric conductive part. The first terminal module comprises a plurality of first ground terminals and a plurality of first signal terminals. At least one first signal terminal is provided between two adjacent first ground terminals. The electric conductive part is disposed on the first terminal module. The first signal terminal is closer to a surface of the electric conductive part than the first ground terminal. The electric conductive part is distancing from both the first signal terminal and the first ground terminal while the first signal terminals are closer to the electric conductive part than the first ground terminals, the electric conductive part and the ground terminal could surround the first signal terminal.

A single-row electrical wire structure includes a first circuit board and a wire assembly. A board-to-board connector is on the first circuit board. The first circuit board includes a first group of contacts arranged into a single row. A distance between center portions of adjacent two contacts of the first group of contacts forms a width. The wires assembly includes a plurality of high-speed signal pairs and at least one low-speed signal pair respectively connected to the first group of contacts. A first spacing between a contact in the first group of contacts corresponding to a first high-speed signal pair of the high-speed signal pairs and a contact in the first group of contacts corresponding to a second high-speed signal pair of the high-speed signal pairs adjacent to the first high-speed signal pair is at least equal to or greater than 2 times of the width.

A method of making a contact module of an electrical connector which includes a tongue and plural contacts exposed to two opposite surfaces of the tongue is characterized by the steps of: forming the contacts from a single contact carrier to have one contact thereof with a first contacting portion oriented reversely-symmetrically with respect to a second contacting portion of another contact thereof and to have two outermost contacts each with a respective integral latching portion; insert-molding the contacts with a first insulator while exposing front ends thereof and the latching portions; severing a carrier strip from the front ends of the plurality of contacts; and over-molding a second insulator to the first insulator and embedding the front ends of the plurality of contacts.

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.

An electric connector includes terminal holder including mating-connection space surrounded by holder base and two arms, insert-receiving portion defined at bottom side of holder base, mating-connection plate extended from the holder base and suspended in the mating-connection space and conducting terminals mounted in the mating-connection plate, and circuit board including plug portion inserted through the insert-receiving portion into the mating-connection space of terminal holder, two openings coupled to the arms of terminal holder, upper and lower metal terminals mounted on opposing top and bottom sides of plug portion, planar portion abutted to the bottom surface of mating-connection plate and a plurality of contacts arranged at the back side of the planar portion for the bonding of conducting terminals. Thus, the electric connector has advantages of low profile and low manufacturing cost and is practical for use in a mobile electronic device having light, thin, short and small characteristics.