An electrical assembly having a housing with a housing pot and a housing cover closing the housing pot and at least two connection terminals provided for the electrical connection of the assembly. The connection terminals each comprise a base plate, a clamping plate, which can be arranged on the base plate, for clamping at least one electrical conductor between the base plate and the clamping plate, a contact pin protruding into the housing pot, and a screw for fastening the clamping plate to the base plate. The housing pot is a hollow cylinder with a closed bottom and the electrical connection terminals are arranged along an imaginary circular line on the housing. The base plates and/or the clamping plates each have a trapezoidal base area.

Aspects of the invention include a press-fit pin for mechanically and electrically connecting to a through-hole of a substrate. The press-fit pin can include a press-fit portion configured to be deformed upon insertion into the through-hole against a plated surface of the through-hole. A surface mount technology (SMT) pad can be coupled to a first end of the press-fit portion. The SMT pad can include a conductive material. The press-fit pin can further include a trace extension coupled to the SMT pad. The trace extension can extend from the SMT pad in a direction perpendicular to the press-fit portion. The press-fit pin can include a tip portion coupled to a second end of the press-fit portion.

A connection assembly, including: a first connector having a first end and a second end, and a first surface extending between the first end and the second end, the first connector including press fit pins extending away from the first surface, each of the press fit pins including: a rod portion; a connecting portion having a first shape; a second connector having a first end and a second end, including: a dielectric carrier having a first surface extending between the first end and the second end of the second connector, receptacles positioned within the first surface of the dielectric carrier, each of the receptacles including: a cylindrical region, a tapered region having a second shape that corresponds to the first shape of the connection portion, wherein, when the first connector is coupled to the second connector, the press fit pins are positioned within respective receptacles of the receptacles.

The present invention relates to a connector. Aforementioned connector includes a first connecting member, a second connecting member, and a third connecting member. The first connecting member includes a first case, a first insulator, and a first conductive terminal, wherein the first case defines a first receiving chamber therein, the first insulator is received in the first receiving chamber, an external sidewall of the first case is provided with a first step. The second case defines a containing hole, the PCB board is received in the containing hole, a first end and a second end of the second case each defines a latching groove, the latching grooves is in communication with the containing hole. The third connecting member includes a third case, a second insulator, and a second conductive terminal, wherein the third case defines a second receiving chamber therein. In above connector, because the electrical components coupled to opposite ends of the connector can slide along three directions which are perpendicular to each other, such that a problem of a difficulty of a connection between the connector and the electrical components which is caused by a deviation of the design of the structure of the electrical components can be avoided, thereby a tolerance insensitive of the connector is enhanced.

An apparatus according to one embodiment of the present disclosure comprises a first circuit board; a first connector provided on one face of the first circuit board; a second circuit board disposed on the one face of the first circuit board, and electrically connected to the first circuit board; a second connector provided on one face of the second circuit board, and engaged with the first connector to electrically connect the second circuit board to the first circuit board; a sealing member disposed between the first circuit board and the second circuit board to seal a space between the first connector and the second connector; and a coupling member coupling the first circuit board and the second circuit board to each other.

The invention relates to an electrical functional component (01) having at least one electrically conductive conductor strip (02), at least one contact pin (03) being arranged on the conductor strip (02), said contact pin (03) being able to be contacted with a contact element complementary in function, in particular a plug or a socket, and a contact zone being provided between the conductor strip (02) and the contact pin (03), said contact zone electrically connecting the conductor strip (02) and the contact pin (03) to each other, the electrically conductive contact zone being formed in the type of an annular cold-pressure-welded transition zone (11), the surface material of the conductor strip (02) and/or the surface material of the contact pin (03) comprising at least one cold-working area (12, 14) in the transition zone (11), a welding zone (13) being provided at least in sections on or in at least one cold-working zone (12, 14), the contact pin (03) and the conductor strip (02) being connected to each other in the welding zone (13) in an electrically conductive manner by material bonding.

Interposer socket includes a base substrate and a plurality of spring contacts coupled to the base substrate. Each of the spring contacts has an inclined section that extends away from a top side of the base substrate at a generally non-orthogonal orientation. The inclined section configured to be deflected toward the top side when an electronic module is mounted onto the interposer socket. The inclined section has a mating surface of the spring contact that is configured to engage the electronic module. The inclined section also includes first and second beam segments and a contact slot therebetween. The first and second beam segments extend in an oblique direction away from the top side. The contact slot has a slot width that is defined between inner edges of the first and second beam segments. The slot width increases as the contact slot extends in the oblique direction.

An electronics housing (10) including a circuit board (3) that is through-plated via press-fit connections (5), and including guide pins (6, 7) extending through circuit board through-holes (8, 9) provided in the circuit board (3). In order to simplify the assembly of the electronics housing (10), the guide pins (6, 7) protrude from a first press-fit body (4) of at least one first press-fit connection (5), and a second press-fit body of at least one second press-fit connection is guided onto the guide pins (6, 7) of the first press-fit body (4) on a side of the circuit board (3) facing away from the first press-fit body (4).

An electrical contact includes a base that includes first and second side edges, and a forward edge that extends between the first and second side edges. At least one contact arm extends from the forward edge of the base for making electrical contact with a contact pad. Each of the first and second side edges defines one or more protrusions configured to engage an interior portion of a connector housing for securing the electrical contact within the connector housing. The one or more protrusions on the first side edge are asymmetrically arranged with respect to the one or more protrusions on the second side edge such that respective centers of each of the one or more protrusions on the first side edge are misaligned with respective centers of each of the one or more protrusions on the second side edge.

An electrical component includes a connection portion that is to be in contact with other electrical component and is to establish an electrical connection with the other electrical component. The connection portion includes a plating film that defines a surface of the connection portion. The plating film includes a metal as a main constituent and an aromatic compound that is dispersed in the plating film. The aromatic compound has pi-acceptability and causes ligand field splitting equal to or greater than that of 2,2′-bipyridyl in spectrochemical series. A content of the aromatic compound in the plating film is equal to or greater than 0.1 weight percent, in terms of carbon atoms, with respect to the metal of the plating film.