An electrical connector assembly includes a housing that is configured to receive a planar first substrate, The first substrate includes an electrically conductive first contact region. The electrical connector assembly is further configured to receive a planar second substrate that includes an electrically conductive second contact region defining a ridge protruding from a surface of the second substrate. The housing is configured to align the first contact region with the second contact region. The electrical connector assembly also includes a force application device applying a compressive contact force to the first and second substrates, thereby putting the first contact region in intimate compressive contact with the second contact region.

A ribbon cable connector for attachment to an end of a ribbon cable comprises a plurality of contact element receptacles adapted to receive a plurality of contact elements. A pair of adjacent contact element receptacles is separated from one another.

A connector includes a pushing member having a projection, and a contact having a projection accommodating portion of a recess shape, the projection includes a holding portion extending across the projection in a direction orthogonal to a projecting direction of the projection and holding a flexible conductor, when the projection is inserted into the projection accommodating portion of the contact together with the flexible conductor with a middle part of the flexible conductor being held by the holding portion of the projection, parts of the flexible conductor that are situated on opposite sides of and are adjoining the middle part of the flexible conductor are sandwiched between a lateral surface of the projection and an inner surface of the projection accommodating portion to contact the inner surface of the projection accommodating portion, whereby the contact is electrically connected to the flexible conductor.

A connector includes a pushing member including a projection and a pushing member-side flange formed at a root portion of the projection, and a contact having a projection accommodating portion, the pushing member-side flange including a pair of fixing portions separately arranged on opposite sides of the root portion of the projection across the projection, when the projection is inserted into the projection accommodating portion together with the flexible conductor with a part of the flexible conductor being laid along a lateral surface of the projection being fixed by the pair of fixing portions, the part of the flexible conductor laid along the lateral surface of the projection being sandwiched between the lateral surface of the projection and an inner surface of the projection accommodating portion to contact the inner surface of the projection accommodating portion, whereby the contact is electrically connected to the flexible conductor.

A light assembly is provided with a circuit board, a connector and a first light emitting device. The circuit board is formed with a first conductive path and a second conductive path. The connector is supported by the circuit board and includes a first terminal connected to the first conductive path and at least two second terminals connected to the second conductive path. The at least two second terminals are arranged radially symmetrical about an axis and are adapted to engage mating terminals of a mating connector when the mating connector is oriented in both a first position and in a second position that is angularly offset from the first position about the axis. The first light emitting device is supported by the circuit board and in electrical communication with the first conductive path and the second conductive path.

A printed circuit board assembly includes a circuit board substrate and a circuit board trace having a circuit board contact region configured to be in intimate contact with a cable contact region of a cable circuit trace contained in flat cable. The circuit board contact region defines a plurality of ridges protruding from a circuit board substrate surface.

A connecting device includes a first flexible printed circuit including a bonding end in which a plurality of connecting pads are provided, a first base portion, a junction portion extending between the bonding end and the first base portion, and a plurality of traces extending from the first base portion to the bonding end, a first connector that is mounted on the first base portion, a second flexible printed circuit including a bonding end in which a plurality of connecting pads are provided, a second base portion, a junction portion extending between the bonding end and the second base portion, and a plurality of traces extending from the second base portion to the bonding end, and a second connector that is mounted on the second base portion. The first connector and the second connector are disposed side by side in a same plane.

A sheet type conductive member includes a tongue portion projecting in a tongue shape in a predetermined plane, a contact arrangement region in which a contact of a connector is arranged being laid out on a front surface of the sheet type conductive member, a first flexible conductor being exposed on the contact arrangement region, a second flexible conductor being exposed on a rear surface of the tongue portion, at least part of the tongue portion being folded back to a front surface side of the sheet type conductive member so that a contact connecting portion composed of part of the first flexible conductor and part of the second flexible conductor is formed in the contact arrangement region.

There is provided a circuit board assembly constructed by stacking a first circuit board having a first contact portion and a second circuit board having a second contact portion to allow the first and second contact portions to contact each other, which is bendable along a first direction. The first circuit board has a first hole that is formed within a range in which a pair of first projection pieces are present in a second direction perpendicular to the first direction, at least part of the first hole being situated between the pair of first projection pieces in the first direction, and the second circuit board has a second hole that is formed within a range in which the pair of second projection pieces are present in the second direction, at least part of the second hole being situated between the pair of second projection pieces in the first direction.

Provided are terminal-free connectors for flexible interconnect circuits. A connector for connecting to a flexible interconnect circuit comprises a base comprising a housing chamber defined by at least a first side wall and a second side wall that are oppositely positioned about the base. A circuit clamp is coupled to the base via a first hinge, and is configured to move between a released position and a clamped position. A cover piece is coupled to the base via a second hinge, and is configured to move between an open position and a closed position. The circuit clamp is configured to secure the flexible interconnect circuit between the base and the circuit clamp in the clamped position. One or more protrusions on the circuit clamp are each configured to interface with a socket within the first or second side wall to secure the circuit clamp in the clamped position.