An electrical connecting assembly includes an electrical connector including a first terminal assembly, and a mating connector including a second terminal assembly. The first terminal assembly includes a first shielding shell covering outside a pair of first signal terminals. Each first signal terminal has a first contact portion. The second terminal assembly includes a second shielding shell covering outside a pair of second signal terminals. Each second signal terminal has a second contact portion. The first shielding shell is provided with at least one naked spacing region. When mating of the electrical connector and the mating connector is complete, the second shielding shell covers outside the first shielding shell and shields the naked spacing region, the first contact portion and the corresponding second contact portion are mated, and at least one of the first and second contact portions is exposed in the naked spacing region.

An electrical connector including a compressible lossy member is provided. The electrical connector comprises an insulative member, a plurality of terminals supported by the insulative member and disposed in a row along a row direction, and a compressible lossy member disposed in a recess of the insulative member. The lossy member includes a body portion elongated in the row direction and a plurality of projections extending from the body portion. The projections of the lossy member project toward and make contact with contact surfaces of first terminals of the plurality of terminals. At least a part of the body portion is compressible and is in a state of compression when the projections are pressed against the first terminals.

A pin header connector having: a peripheral frame having, at the centre, a series of through openings; and a plurality of modules, each of which engages a corresponding through opening and is provided with a series of electrical pin contacts and with a support plate, which is made of a plastic material and has a series of first through holes engaged by the corresponding electrical pin contacts. The peripheral frame has a plurality of linear sliding guides, each of which is arranged in the area of a through opening, is designed to guide an insertion of the support plate of a module into the through opening allowing the support plate to only make a translation in a mounting direction, and is provided with a limit stop ending the insertion. An interlocking connection system is provided, which is activated when the support plate of each module strikes against the limit stop.

A connector includes a sheet terminal and an insulating base. The sheet terminal includes a bend section, a mating section, and an insertion section. The insertion section includes a shoulder extending outward along an insertion axis, and the top of the shoulder corresponds to the mating section. The insulating base includes a base and a mating portion. The base includes two opposite base sidewalls, an accommodation space, and a stop portion. The insertion section is located in the accommodation space. The stop portion corresponds to the shoulder. The mating portion is connected to the base. The mating portion includes two opposite mating sidewalls and a mating space. The mating space is in communication with the accommodation space, and the mating section is located in the mating space.

The present application relates to an electrical connector and an electronic product. The electrical connector includes a metal terminal; an insulating body configured to fixing the metal terminal; a metal shield covering an outer side of at least a portion of the insulating body; a metal latch connected to the insulating body, and provided with a ground terminal thereon, and wherein the insulating body, the metal shield, and the metal latch enclose an accommodating space; and a brazing solder disposed at least partially within the accommodating space, and the brazing solder being configured to be melted during welding and to fixedly connect the metal shield and the metal latch after being cooled, such that the metal shield is electrically connect to the metal latch.

An electrical connector includes an elongate insulative housing defining a central slot extending along a longitudinal direction, and two rows of contacts disposed by two sides of the central slot. The housing forms a front receiving cavity to receive the corresponding mating tongue of the complementary connector, and a rear receiving cavity to receive the corresponding insulators wherein each insulator is integrally formed with each row of contacts via insert-molding for completing the whole contact module. Each grounding contact is equipped with the corresponding EMI absorber before being insert-molded within the insulator so as to have the corresponding EMI absorber also integrally formed with the insulator.

A surface mount electrical connector and methods of making and using a surface mount electrical connector. The connector includes a housing and a contact subassembly received in the housing. The contact subassembly includes interface contacts, board termination contacts, and an internal circuit board. The interface contacts and the board termination contacts are mounted to the internal circuit board to electrically connect the interface contacts and the board termination contacts through the internal circuit board. Each of surface mount tail ends of the board termination contacts has a bent portion that defines a mounting surface configured to be surface mounted to a mounting face of a main circuit board, to establish an electrical connection between the board termination contacts and the main circuit board.

A contact module includes a frame assembly having a leadframe and a dielectric frame partially encasing the leadframe. The leadframe includes ground conductors each having a transition portion extending between a mating end configured to be mated to a mating connector and a terminating end configured to be terminated to one of a circuit board or a cable conductor. The dielectric frame includes dielectric material encasing at least a portion of each transition portion. Each mating end extends from the dielectric frame for connection with the mating connector. Each terminating end extends from the dielectric frame for connection with the circuit board or the cable conductor. The contact module includes resistive elements within the dielectric frame. Each resistive element is coupled in series with the transition portion of the corresponding ground conductor.

An insulating housing and a wire-end connector including the insulating housing are provided. The insulating housing includes a body portion, a power mating portion, a signal mating portion, and a snap-fit member. The body portion has a first surface and a second surface that are oppositely disposed, and a third surface and a fourth surface that are oppositely disposed. A plurality of first channels are formed along a first direction inside the body portion in a horizontal and parallel arrangement. The power mating portion is disposed on the second surface and includes a plurality of pillars, and the first channels penetrate the plurality of pillars, respectively. The signal mating portion is disposed on the third surface and has a fifth surface and a sixth surface that are oppositely disposed, and a plurality of second channels are formed therein along the first direction.

An electrical connector has a row of signal contacts, and a ground shield disposed inwardly from the signal contacts. Each of the signal and ground contacts has a first segment and a second segment. Each first segment defines a mounting end that can mount to a first electrical component, and each second segment defines a mating end that can mate with a second electrical component. The first and second segments of each signal contact and the ground contact are angularly offset from one another so as to define an angle of between 75 degrees and 105 degrees between the first and second segments. The first and second segments of each signal contact and the ground contact can be coupled to one another to define the angle. Alternatively, the signal and ground contacts can be bent along a common bend line that intersects the signal contacts and the ground contact.