A flat routing material includes a flat conductive material and an insulating coating covering the conductive material. The routing material includes a bent portion as a part bending in an edgewise direction at a predetermined angle or more, and one or more folds extending toward the outer peripheral side of the bent portion are provided on at least the inner peripheral side of the bent portion. The folds are manufactured by press working.

A shielded electrical cable includes conductor sets extending along a length of the cable and spaced apart from each other along a width of the cable. First and second shielding films are disposed on opposite sides of the cable and include cover portions and pinched portions arranged such that, in transverse cross section, the cover portions of the films in combination substantially surround each conductor set. An adhesive layer bonds the shielding films together in the pinched portions of the cable. A transverse bending of the cable at a cable location of no more than 180 degrees over an inner radius of at most 2 mm causes a cable impedance of the selected insulated conductor proximate the cable location to vary by no more than 2 percent from an initial cable impedance measured at the cable location in an unbent configuration.

A multi-conductor flat cable having a width and a thickness includes a plurality of individual conductors arranged side-by-side. The conductors include first and second power conductors, a neutral conductor, and a ground conductor.

A downline wire (10) serves to connect a location on the ground surface to at least one detonator (52) in a blast hole. The downline wire includes at least two flexible electrical conductors (12, 14) encased by respective flexible layers of an insulating material (20, 22) and a flexible sheath (24) in which the insulated conductors are embedded. Each conductor (12, 14) is made of a copper-clad steel core and the insulating material is either a filled flexible polyvinylchloride (PVC) composition or a polyester elastomer. The sheath (24) is made from a medium or high density polyethylene compound which includes carbon black.

A flat cable wiring structure includes an operation mechanism that detects a physical operation made on an operating surface and outputs a detection signal, a control board, disposed facing the operating surface of the operation mechanism, that outputs a driving signal for imparting vibration to the operation mechanism on the basis of the detection signal, and a flat cable that electrically connects the operation mechanism and the control board. The flat cable includes a routing portion that extends from the operation mechanism to the control board along a movement direction of the operation mechanism. The routing portion includes a bending portion that bends at a bending angle allowing the routing portion to be routed along the control board.

A flat cable wiring structure includes an operation mechanism that detects a physical operation made on an operating surface and outputs a detection signal, a control board, disposed facing the operating surface of the operation mechanism, that outputs a driving signal for imparting vibration to the operation mechanism on the basis of the detection signal, and a flat cable that electrically connects the operation mechanism and the control board. The flat cable includes a routing portion that extends from the operation mechanism to the control board along a movement direction of the operation mechanism. The routing portion includes a bending portion that bends at a bending angle allowing the routing portion to be routed along the control board.

Cable assemblies that may convey high speed signals while providing reduced signal noise, radiation, and susceptibility to interference. These and other examples may be readily manufactured. These and other examples may provide cables having a reduced thickness.

A shielded flat cable includes a plurality of ground lines disposed in a first plane, a pair of signal lines provided between the plurality of ground lines and disposed in the first plan, an insulating layer covering the plurality of ground lines and the pair of signal lines, and a shield layer covering the insulating layer. In a cross section perpendicular to a longitudinal direction, the plurality of ground lines include an adjacent ground line adjacent to one signal line of the pair of signal lines. A minimum distance between the pair of signal lines is smaller than a minimum distance between the adjacent ground line and the one signal line.

A first direction exposed conductor group includes a plurality of exposed conductor portions of a first flat cable, and a second direction exposed conductor group includes a plurality of exposed conductor portions of a second flat cable. The plurality of exposed conductor portions are located parallel to each other, and the plurality of exposed conductor portions are located parallel to each other. The first direction exposed conductor group and the second direction exposed conductor group intersect and overlap each other to form an intersection overlap portion. An intersection insulating film is provided between the first direction exposed conductor group and the second direction exposed conductor group at the intersection overlap portion. The exposed conductor portions and the exposed conductor portions facing each other via windows of the intersection insulating film are connected to be conductive to each other. Thus, an electric cable structural body is provided.

A cable holding member includes a stopper member and a housing. The stopper member has an attachment surface for supporting a flat cable in a folded state. The housing has a mounting surface which is provided at an opening edge of a housing space for housing the stopper member and on which the flat cable is to be placed, and recesses into which protrusions of the flat cable placed on the mounting surface are to be fitted. The flat cable is placed on the mounting surface, and then, the stopper member is inserted into the housing space of the housing. In this way, the stopper member is attached to the housing with the flat cable being supported on the attachment surface.