Abstract: A rotary connector 1 has a fixed case 3 for being mounted on a base 5 for a switch 4. The fixed case 3 has a first screw insertion hole 3a formed open therein for insertion of a screw 6. The screw 6 has a flange 6a. The fixed case 3 or the base 5 has a resilient pawl 3f formed therein for engagement with the flange 6a. With such structure, it is possible to screw-fix both the rotary connector and the base onto the steering column. The screw is securely kept in the rotary connector during transport and assembly by the resilient pawl.
Abstract: A modular connector comprises an insulating housing (100) having a plugging portion for plugging with a mating connector, a plurality of contact elements (201-208) supported by the insulating housing, the contact elements each having a contact section (201a-208a) arranged in the plugging portion, an intermediate section (201B-208B) secured to the insulating housing, and a connection section (201C-208C) extending from the intermediate section, a pair of the contact elements (201, 208) on opposite ends being twisted to intersect each other in the intermediate sections, the other pairs of the contact elements (202-207) being arranged such that the distance between adjacent contact elements decreases in the intermediate sections and increases in the connection sections.
Abstract: This invention relates to a junction between an intelligent contact terminal (3) and a cable (1, 2), said junction comprising connector pins (4) extending from the contact terminal (3), penetrating into a cable insulation sheath (1) and piercing flat wires (2) included in the cable and provided with lip portions (10) pressing against the lateral faces of the pins. In order to provide a secure contact, the pins (4) are slightly conical or tapered at least within the region of said lip portions (10). By designing the flat wire as a multilayer wire, the lip portions (10) of the wire layers together can be brought to provide an increased contact area. In addition, the multilayer wire (2) is penetrable with a lesser application of force if the cable is provided with preliminary holes for the pins (4).
Abstract: A connector for communications systems has four input terminals and four output terminals, each arranged in an ordered array. A circuit electrically couples each input terminal to the respective output terminal and cancels crosstalk induced across the adjacent connector terminals. The circuit includes four conductive paths between the respective pairs of terminals. The first and third paths are in relatively close proximity and are substantially spaced from the second and fourth paths. The second and fourth paths are in relatively close proximity.