A card edge connector with a seal member that blocks migration of vaporized flux into the connector. The connector includes conductive elements curved at locations and a housing to hold the conductive elements. The housing has openings on a board facing surface. The openings are sized to allow conductive elements inserted into the housing through the openings. Vaporized flux entering the connector through the openings during board assembly may accumulate on contact surfaces of the conductive elements and cause failures to read a card inserted in the connector. The seal member may be attached to the board facing surface of the housing.

An electrical connector includes: an elongated insulative housing having a bottom wall, a pair of side walls along a lengthwise direction, and an island located between the pair of side walls to form two longitudinal grooves; a row of contacts secured to each of the pair of side walls and exposed to a corresponding groove; and a shielding shell having a base secured to the insulative housing and a peripheral wall surrounding the pair of side walls to form an annular groove.

An electrical connector includes an insulation body, a main plate, a side plate and a plurality of terminals. The insulation body has at least one aperture penetrating through an upper surface and a lower surface of the insulation body. The main plate is fastened in the insulation body. The side plate is fastened in the insulation body. The side plate is disposed to one side of the main plate. The main plate has a first corresponding side. The side plate has a second corresponding side. The second corresponding side is corresponding to the first corresponding side in the at least one aperture. The first corresponding side and the second corresponding side are exposed to an outside of the insulation body through the at least one aperture. The plurality of the terminals are mounted in the insulation body.

A connector (10) according to the present disclosure includes an insulator to be fitted to a connection object (60), and contacts (50) attached to the insulator. Each of the contacts (50) includes a contact portion (59), a first elastic portion (54A), a first adjustment portion (54B1), and a second adjustment portion (54B2). The contact portion (59) electrically contacts the connection object (60) when the insulator and the connection object (60) are fitted together. The first elastic portion (54A) is elastically deformable and extends from a first base (51) supported by the insulator. The first adjustment portion (54B1) is formed continuously with the first elastic portion (54A) and has an electric conductivity higher than that of the first elastic portion (54A). The second adjustment portion (54B2) is formed continuously with the first adjustment portion (54B1) and has an electric conductivity lower than that of the first adjustment portion (54B1).

A signal output part of a first sensor configured to output a signal corresponding to an operation state of a mechanism for locking rotation of a steering shaft is mounted on a first circuit board. A signal output part of a second sensor configured to output a signal corresponding to an operation state of a mechanism for detecting a rotation angle of the steering shaft is mounted on a second circuit board. A connector electrically connects the first circuit board and the second circuit board while allowing relative displacement therebetween.

In a connector, each of housings of a socket and a header serving as connector parts includes: a terminal holder extending in a first direction and includes a terminal section of the associated connector part; and a side wall connector extending in a second direction intersecting the first direction, and connected to one end of the terminal holder of the associated connector part in the first direction. The shield member includes a first portion on the side wall connector, and a second portion aligned with the terminal holder of the connector part in the second direction. The socket and the header are inserted into each other in a third direction intersecting the first and second directions. The second portion of at least one of the shield members includes a shield bent portion with a curved portion curving toward the other connector part to be inserted.

An electrical contact is stamped from sheet metal and includes a planar main body, a resilient upper contacting arm extending from an upper end of the main body and a resilient lower contacting arm extending from a lower end of the main body. The upper contacting arm includes an upper oblique section and an upper contacting section at a free end thereof, and the lower contacting arm includes a lower oblique section and a lower contacting section at the free end thereof. The width of the contacting arm is similar to that of the main body while the width of the contacting section is smaller than one half of that of the main body.

An electrical connector includes an insulative housing with a plurality of passageways extending through opposite upper and lower surfaces of the housing. A plurality of electrical contacts are received within the corresponding passageways, respectively. Each contact includes a first main body and a second main body side by side arranged with each other with a bridge transversely linked therebetween. At least one of the first main body and the second main body includes a retaining barb for retaining contact in the passageway. Two soldering pads are formed on the corresponding bottom ends of the first main body and the second main body, respectively. The two soldering pads intimately confront each other either in a horizontal direction or in a vertical direction, and are joined together via a solder ball located under the two soldering pads.

A package structure and a manufacturing method thereof are provided. The package structure includes a circuit board, a barrier structure and a molding layer. The circuit board includes a substrate and a component disposed on the substrate. The substrate includes a molding area and a non-molding area, and the component is disposed on the molding area. The barrier structure is disposed on the substrate and located between the molding area and the non-molding area. The barrier structure has a first predetermined height. The molding layer is disposed on the molding area and covers the component. The molding layer has a second predetermined height. The first predetermined height of the barrier structure is less than or equal to the second predetermined height of the molding layer.

In a connector assembly in which a first connector and a second connector are fitted to each other, a first shell, which has a rectangular frame-like shape and serves as an outer shell of the first connector, includes curved portions on upper ends of respective sides of the rectangle, and a second shell, which has a rectangular frame-like shape and serves as an outer shell of the second connector, includes convex portions, which are elongated along respective sides to be slender, on outer surfaces on the sides of the rectangle. The curved portions and the convex portions are positioned so that the curved portions and the convex portions are partially overlapped with each other. The convex portions are in contact with the first shell through the entire lengths, and the curved portions are in contact with the second shell through the entire lengths.