A power connector system for a circuit card assembly includes a board power connector and a cable power connector coupled to the board power connector. The board power connector includes a board housing having cavities that hold power contacts and signal contact channels on the bottom that hold signal contacts. The cable power connector has a cable housing having contact silos holding cable power contacts terminated to power cables. The contact silos and the cable power contacts are received in the cavities of the board housing to mate the cable power contacts with the board power contacts. The cable housing includes a platform below the contact silos holding cable signal contacts at the bottom of the cable housing outside of the contact silos for mating with the board signal contacts when the cable power connector is mated with the board power connector.

A dual-row cable structure is applied to a first circuit board and a second circuit board. A board-to-board connector is on the first circuit board, and the first circuit board includes a first group of contacts and a second group of contacts. An electrical connector is on the second circuit board. The second circuit board includes a third group of contacts and a fourth group of contacts. The dual-row cable structure includes a wire assembly including high-speed signal wires, low-speed signal wires, one or more power wires, and one or more ground wires. The high-speed signal wires are connected to the first group of contacts. The low-speed signal wires, the power wire, and the ground wire are respectively connected to the second group of contacts. The third group of contacts and the fourth group of contacts are respectively connected to the other end of the wire assembly.

A mezzanine power pin includes a dual layer pin body extending between a pin top having an upper power interface and a pin bottom having a lower power interface. The dual layer pin body has a base metal core and an outer metal oxide layer combined with the base metal core defining an outermost layer of the dual layer pin body. The mezzanine power pin includes an upper fastener coupled to the pin top to mechanically and electrically connect an upper component to the upper power interface. The mezzanine power pin includes a lower fastener coupled to the pin bottom to mechanically and electrically connect a lower component to the lower power interface. The base metal core is configured to electrically connect the upper component and the lower component through the base metal core.

A connector (10) according to the present disclosure is fitted with a connection object (60). The connector includes a pair of first insulators (20), a second insulator (30) arranged between the pair of first insulators (20) and is movable relative to the pair of first insulators (20), and contacts (50) mounted to the pair of first insulators (20) and the second insulator (30) and arranged in rows, wherein the pair of first insulators (20) are arranged apart from each other in a direction substantially orthogonal to an arrangement direction of the contacts (50).

An electrical contact includes a retention section of an outer part and an extension section of an inner part parallel to each other and linked to each other via a transverse bridge located in another vertical plane perpendicular to both the retention section and the extension section. An upper contacting arm extends, toward the extension section, from an upper end of the retention section with an upper mating apex and an upper abutment tip region, and a lower contacting arm extends, toward the extension, from a lower end of the retention section with a lower mating apex and a lower abutment tip region. An upper abutment tab upwardly and obliquely extends from an upper end of the extension section toward the retention section and adapted to be mated with the upper abutment tip region when the upper contacting arm is downwardly depressed by the CPU.

A power connector assembly includes a power card edge connector and a bladed power connector. The power card edge connector includes a housing mounted to a first circuit board and having a card slot with power contacts surface mounted to the first circuit board. The bladed power connector includes a dielectric frame extending between a first end configured to face a second circuit board and a second end received in the card slot. The bladed power connector includes a first blade at a first side of the dielectric frame and a second blade at a second side of the dielectric frame. The blades include mating edges and a terminating ends opposite the mating edges. The terminating ends includes press-fit pins configured to be press-fit into the second circuit board.

A header for a medical implant device is configured to provide an electrical connection to a circuit within the housing of the medical implant device. The header includes at least one circuit board; a header housing enclosing the circuit board and configured to be connected to the housing of the medical implant device; and a sensor system on the circuit board.

An electrical connector is provided which includes a terminal that includes two terminal pieces, a fixed housing that is fixed to a machine or a substrate, and a movable housing that is movably supported to the fixed housing by the terminal. Each of the terminal pieces is formed of a conductive plate. A connection portion is formed on one end side of each of the terminal pieces in a length direction and connected to a circuit provided in the machine or the substrate. A contact portion is formed on another end side of each of the terminal pieces in the length direction and comes in contact with a terminal of a mating connector. A spring portion is formed in each of the terminal pieces and connects the connection portion and the contact portion such that the contact portion is movable with respect to the connection portion between the connection portion and the contact portion. The two terminal pieces are disposed such that at least parts of the spring portions of the two terminal pieces are overlapped via a gap in a direction perpendicular to a surface of the spring portion.

A terminal (11) to be mounted into a housing (20) mounted on a circuit board (40) includes a terminal contact portion (12) to be disposed in a forwardly open receptacle (21) of the housing (20), an inserting portion (14) to be inserted into a terminal insertion hole (24) penetrating through a rear wall (22) of the receptacle (21) in a front-rear direction, and a board connecting portion (16) to be drawn out rearward from the terminal insertion hole (24) and connected to the circuit board (40). The inserting portion (14) includes a first press-fit portion (31) projecting in a first direction intersecting the circuit board (40) and to be press-fit to an inner wall of the terminal insertion hole (24) and a second press-fit portion (33) projecting in a second direction intersecting the first direction and to be press-fit to the inner wall of the terminal insertion hole (24).

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.