A plug connector includes: an insulative housing including a main body, a reinforcement projecting forward from the main body, and a pair of baffle plates; and a printed circuit board partially received in the insulative housing, the printed circuit board extending forward from the main body and beyond the reinforcement, the reinforcement wrapping on the printed circuit board, wherein a width of a front end of the printed circuit board exposed outside the main body in a horizontal direction is greater than a width of the reinforcement, and a limiting groove is formed between the baffle plate and the printed circuit board for guiding the plug connector to mate with a socket connector.

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).

It is aimed to reduce a load to fixing portions of a flat cable and terminal fittings. A connector (A) includes a flat cable formed such that a plurality of conductors are arranged in parallel on a flexible insulating sheet, a plurality of terminal fittings held in a housing and individually fixed to front end parts of the plurality of conductors, and a reinforcing plate laminated on and integrated with a region of the insulating sheet including fixing portions of the conductors and the terminal fittings. The reinforcing plate is provided with hooking portions. The housing is formed with stoppers for restricting a rearward displacement of the flat cable with respect to the housing by being brought into contact with the hooking portions. A low-rigidity portion is formed in a region of the reinforcing plate rearward of the fixing portions and forward of the hooking portions.

A connector for a flat flexible cable includes a housing and a spring clip disposed in the housing. The housing has a main body and a cover. The cover is movable with respect to the main body between an open position and a closed position. The spring clip is resiliently deflectable by the cover. The spring clip is in a first state with the cover in the open position in which the spring clip abuts a conductor exposed through an insulation material of the flat flexible cable with a first contact force. The spring clip is in a second state with the cover in the closed position in which the spring clip abuts the conductor with a second contact force greater than the first contact force.

A connector that is attachable to an end of a flat cable and is connectable to a counterpart connector includes a housing having a plate-shaped portion and a terminal accommodating portion, and a socket terminal housed in the terminal accommodating portion. The socket terminal has a box portion in which a pin terminal of the counterpart connector is to be inserted, and a spring portion having a cantilever shape, the spring portion extending from the box portion and protruding onto the plate-shaped portion. The end of the flat cable is to be interposed between the plate-shaped portion and the spring portion of the socket terminal. The terminal accommodating portion receives part of force that the spring portion receives from the flat cable.

A connecting assembly for electrically connecting a ribbon cable in an aircraft. The assembly has a housing with a slot-shaped opening through which an end section of a ribbon cable can be inserted into a housing interior into a predetermined insertion position. The assembly has a first and a second engagement section which are arranged in the interior. The first engagement section is mounted such that it can be optionally moved between a first and a second position, such that by moving the first engagement section into its second position, the end section can be clamped tight optionally between the first second engagement sections and conductor tracks of the ribbon cable are then in contact with a corresponding number of electrical contacts provided on the first engagement section. In the second position, the first engagement section is releasably secured by a latching device.

The housing has a locking portion, which is positioned within the range between the circuits positioned at the outermost ends in the strip width direction of the flat-type conductor and is lockable to the counterpart electrical connector, and a holding space, which holds the retainer along with the front end section of the flat-type conductor, the front end section of the flat-type conductor has formed therein a pass-through portion extending through the flat-type conductor in the thickness direction of said flat-type conductor at a location at least partially overlapping with the locking portion in the strip width direction, and the retainer has a protrusion that protrudes in the thickness direction of the flat-type conductor and enters the pass-through portion of the flat-type conductor, thereby making it possible to limit the rearward movement of the flat-type conductor with the help of said protrusion.

A full-shielding cable connector includes an insulated body, a metal frame, a shielding conductive body, and a pull rod. The insulated body has a plurality of terminal slots for receiving a plurality of terminals, respectively. The metal frame is fixed to the insulated body. The metal frame has pins that are electrically connected to a grounding circuit of a circuit board. The shielding conductive body is detachably assembled to the insulated body and arranged above the metal frame. The shielding conductive body has a cable receiving chamber for receiving a cable, and contacts a top and bottom surface of the cable. The pull rod is rotatable with respect to the shielding conductive body. The pull rod can be rotated to a front end of the insulated body to be fastened thereto.

Provided is a connector that can prevent excessive stress from arising at a connecting site between a flat cable and a terminal. The connector is provided with a flat cable (60) that has a hole (64) serving as a receiving section, a housing (10) that has an installation surface (19) where the flat cable (60) is arranged and a projecting section (21) projecting out from the installation surface (19) and is inserted into the hole (64), and a terminal (90) that is connected to a conductor section (70) of the flat cable (60) and is locked onto the housing (10). In an assembled state, the flat cable (60) has, at a portion enclosing the projecting section (21) or a portion arranged between the terminal (90) and the projecting section (21), an excess length section (66) that is extra long as compared to a case of having been disposed along the installation surface (19) of the housing (10).

It is aimed to provide a connector capable of suppressing the generation of an excessive stress in a connecting part of a flat cable and a terminal. A connector is provided with a flat cable (60) including a hole (64) serving as a receiving portion, a housing (10) including an installation surface (19) on which the flat cable (60) is arranged and a protrusion (21) projecting from the installation surface (19) and to be inserted into the hole (64), and a terminal (90) to be connected to a conductor (70) of the flat cable (60) and locked to the housing (10). The flat cable (60) includes an extra length portion (66) providing an extra length as compared to flat arrangement on the installation surface (19) in a part surrounding the protrusion (21) or a part arranged between the terminal (90) and the protrusion (21) in an assembled state.