A connecter includes a conductive contact connected to the connection object and including a tubular portion and a top plate portion of annular shape joined to one end of the tubular portion, the top plate portion having a through hole, and a housing including a first surface facing the top surface of the sheet-like conductive member and a contact accommodating portion of recess shape formed in the first surface and accommodating the tubular portion of the contact, the housing including a projection formed to project in the contact accommodating portion from a bottom surface of the contact accommodating portion and penetrating the through hole of the tubular portion accommodated in the contact accommodating portion and a deformed portion overhanging in a direction along the first surface from a tip of the projection in the tubular portion and covering the top plate portion around the through hole.

Disclosed is an electrical repellent device comprising an electric generator (50) connected via its two terminals to a conductive composite tape (3) around an object to be protected and connecting the electric generator (50) and the conductive composite tape (3), the connector being characterized in that it comprises: support (1) made from metal material or insulating polymer; and at least two rods (15) mounted on the support (1) and each comprising, on their outer surface, at least one conductive element (20); and a pressure component keeping the at least one conductive element (20) in contact with at least one conductive strip (31) or the composite tape (3); and two connection terminals configured to apply the potential difference that exists between the two terminals of the electric generator (50) and the conductive elements.

Disclosed is an electrical repellent device comprising an electric generator (50) connected via its two terminals to a conductive composite tape (3) around an object to be protected and connecting the electric generator (50) and the conductive composite tape (3), the connector being characterized in that it comprises: support (1) made from metal material or insulating polymer; and at least two rods (15) mounted on the support (1) and each comprising, on their outer surface, at least one conductive element (20); and a pressure component keeping the at least one conductive element (20) in contact with at least one conductive strip (31) or the composite tape (3); and two connection terminals configured to apply the potential difference that exists between the two terminals of the electric generator (50) and the conductive elements.

A wiring substrate is connected to a backplane, and includes: a first connector that is mounted on one surface of the wiring substrate and is connected to the backplane; an opening portion that is formed in the one surface on a side opposite to a side connected to the backplane of the first connector, and through which a cable having one end connected to the first connector is passed; an integrated circuit that is mounted on the one surface on a side opposite to a side on which the first connector is present relative to the opening portion; and a second connector that is mounted on the other surface on a side opposite to the one surface in the vicinity of the integrated circuit on the side opposite to the side on which the first connector is present relative to the opening portion, is connected to the integrated circuit via a through hole penetrating the wiring substrate, and is connected to the other end of the cable.

A wiring substrate is connected to a backplane, and includes: a first connector that is mounted on one surface of the wiring substrate and is connected to the backplane; an opening portion that is formed in the one surface on a side opposite to a side connected to the backplane of the first connector, and through which a cable having one end connected to the first connector is passed; an integrated circuit that is mounted on the one surface on a side opposite to a side on which the first connector is present relative to the opening portion; and a second connector that is mounted on the other surface on a side opposite to the one surface in the vicinity of the integrated circuit on the side opposite to the side on which the first connector is present relative to the opening portion, is connected to the integrated circuit via a through hole penetrating the wiring substrate, and is connected to the other end of the cable.

A connecting method includes: arranging the connection terminal such that a rear surface of a base portion in a flat plate shape of the connection terminal comes into contact with a front surface of the flexible substrate; with a rising portion of the connection terminal extending from the rear surface side of the base portion toward the base portion and a tip end bending portion of the connection terminal extending from a tip end of the rising portion in a direction inclined with respect to the rising portion, displacing the rising portion toward the base portion so that the tip end bending portion protrudes from a front surface of the base portion; and holding a part of the flexible substrate between a pressing portion formed at the rising portion and a pressed portion formed at the base portion, whereby the conductive portion of the flexible substrate is electrically connected to at least one of the pressing portion and the pressed portion.

A connecting method includes: arranging the connection terminal such that a rear surface of a base portion in a flat plate shape of the connection terminal comes into contact with a front surface of the flexible substrate; with a rising portion of the connection terminal extending from the rear surface side of the base portion toward the base portion and a tip end bending portion of the connection terminal extending from a tip end of the rising portion in a direction inclined with respect to the rising portion, displacing the rising portion toward the base portion so that the tip end bending portion protrudes from a front surface of the base portion; and holding a part of the flexible substrate between a pressing portion formed at the rising portion and a pressed portion formed at the base portion, whereby the conductive portion of the flexible substrate is electrically connected to at least one of the pressing portion and the pressed portion.

A connector for a flat flexible cable includes a cable housing and a contact having an elastic portion. The cable housing includes a first housing having a termination passage extending through the first housing and a second housing mated with the first housing. A flat conductor exposed in a window extending through an insulation material of the flat flexible cable is held between the first housing and the second housing. The elastic portion extends through the termination passage and elastically bears against the flat conductor to electrically connect the contact to the flat conductor.

An electrical cable (1000) including a plurality of substantially parallel insulated conductors (100) is described. Each insulated conductor (100) includes an electrically conductive inner conductor (200) co-extensive and covered with an insulating layer (300). At least a portion of a periphery of each insulated conductor (100) may be encompassed by a substantially co-extensive electrically conductive shield (400). For each insulated conductor (100), portions of the insulating layer (300) are removed from the top side (1200) of the cable (1000) to expose a portion of the inner conductor (200) of the insulated conductor (100). The insulated conductor (100) is adapted to mate with an electrically conductive mating conductor (500) at the exposed portion (210) of the inner conductor (200).

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.