A connector includes a required number of contacts, an electrical insulation housing and a metallic shell. A tab is formed in the connector. A pressure receiving portion of the tab is pushed by a pushing portion of the shell to move the pressure receiving portion toward a mounting face of a substrate for applying a force in the insertion of FPC but not applying a force to the tab in the detaching thereof, whereby an engaging portion of the tab is moved in a direction opposing to the mounting face of the substrate to unfasten the engaging portion from an locking portion of the FPC.

A connector includes a required number of contacts, an electrical insulation housing and a metallic shell. A tab is formed in the connector. A pressure receiving portion of the tab is pushed by a pushing portion of the shell to move the pressure receiving portion toward a mounting face of a substrate for applying a force in the insertion of FPC but not applying a force to the tab in the detaching thereof, whereby an engaging portion of the tab is moved in a direction opposing to the mounting face of the substrate to unfasten the engaging portion from an locking portion of the FPC.

It is the object of the present invention to provide a connector 10 which provides a stable connection that is resistant to the rocking motion of a connecting object in insertion direction, longitudinal pitch direction, or the direction of the thickness of the connector, while maintaining the low-profile level so as to prevent the deflection of the connecting object even when the connector is mounted on a flexible board e.g., an FPC.

It is the object of the present invention to provide a connector 10 which provides a stable connection that is resistant to the rocking motion of a connecting object in insertion direction, longitudinal pitch direction, or the direction of the thickness of the connector, while maintaining the low-profile level so as to prevent the deflection of the connecting object even when the connector is mounted on a flexible board e.g., an FPC.

An electrical connector includes wiring with multiple wires. Each wire has a conductor covered in insulation. Each wire has a stripped portion that exposes the conductors. The stripped portions are stacked on top of one another. A housing has first and second housing portions that provide a cavity. The first housing portion receives the stripped portions. The second housing portion includes a spring that has a closed portion that extends into the cavity and is configured to urge the stripped portions into engagement with one another when the first and second housing portions are secured to another in an assembled connector condition.

An electrical connector includes wiring with multiple wires. Each wire has a conductor covered in insulation. Each wire has a stripped portion that exposes the conductors. The stripped portions are stacked on top of one another. A housing has first and second housing portions that provide a cavity. The first housing portion receives the stripped portions. The second housing portion includes a spring that has a closed portion that extends into the cavity and is configured to urge the stripped portions into engagement with one another when the first and second housing portions are secured to another in an assembled connector condition.

A flexible printed circuit board (FPCB) connector includes a housing having a first mating interface configured for mating with a first FPCB and a second mating interface configured for mating with a second FPCB. A plurality of jumper conductors are held by the housing. The jumper conductors have first mating ends at the first mating interface being configured for mating with the first FPCB and the jumper conductors having second mating ends at the second mating interface being configured for mating with the second FPCB. The first mating interface is configured to be mated to the first FPCB at any location along a length of the first FPCB including locations remote from an end of the first FPCB.

A flexible printed circuit board (FPCB) connector includes a housing having a first mating interface configured for mating with a first FPCB and a second mating interface configured for mating with a second FPCB. A plurality of jumper conductors are held by the housing. The jumper conductors have first mating ends at the first mating interface being configured for mating with the first FPCB and the jumper conductors having second mating ends at the second mating interface being configured for mating with the second FPCB. The first mating interface is configured to be mated to the first FPCB at any location along a length of the first FPCB including locations remote from an end of the first FPCB.

A board-to-wire connector includes a substrate, a pair of wires and a pair of electrically conducting rivets. The substrate has a first surface, an opposing second surface and at least two electrically conducting traces having respective conductive pads. The pair of wires are each electrically preassembled to one of the electrically conducting traces through the respective conductive pads with solder joints. The pair of electrically conducting rivets each extend through the substrate from the first surface to the second surface and through one of the electrically conducting traces and have prongs that protrude from the second surface of the substrate.

A printed wiring board (1) includes: a base substrate (3); a plurality of pads (15a, 17a) for electrical connection that are disposed at one surface side of the base substrate (3) and at a connection end portion (13) to be connected with another electronic component (50); wirings (9, 11) that are connected with the pads (15a, 17a); and engageable parts (28, 29) that are formed at side edge parts of the connection end portion (13) and are to be engaged with engagement parts (58) of the other electronic component (50) in the direction of disconnection. The flexible printed wiring board (1) further includes reinforcement layers (31, 32) that are disposed at the other surface side of the base substrate (3) and at a frontward side with respect to the engageable parts (28, 29) when viewed in the direction of connection with the other electronic component, and that are formed integrally with the wirings (9).