It is aimed to reduce a diameter. A shielded electrically conductive path is provided with a shielded cable configured such that a core wire is surrounded with a shield layer, and a shield terminal including an inner conductor to be connected to the core wire and an outer conductor formed with a crimping portion in the form of an open barrel. The crimping portion includes a first crimp portion formed with a projection-like first locking portion and a second crimp portion formed with a second locking portion, and is crimped to an outer surface of the shield layer with the first locking portion locked to the second locking portion. A locking margin of the first locking portion and the second locking portion in a radial direction is within a plate thickness range of the second crimp portion.

A high-voltage cable set, in particular for a vehicle electrical system, contains a plurality of cables, which are surrounded by a common shield, and a connector, which consists of a conducting material and is electrically connected to the shield. For this purpose, a contact sleeve is integrated into the connector, the shield being fastened to the contact sleeve. The risk of contact corrosion is thereby significantly reduced.

A shield connection structure includes a shielded cable 20, a conductive interposing members 40 to be mounted on the shielded cable 20, a conductive inner shell 50 for covering the interposing member 40, a conductive annular outer shell 60 for covering the inner shell 50, and a retainer 80 made of synthetic resin and to be mounted in the outer shell 60. The interposing member 40 contacts an electromagnetic shield member 23 exposed from an insulation coating 24 and the inner shell 50 and electrically connects the electromagnetic shield member 23 and the inner shell 50. The inner shell 50 contacts the interposing member 40 and the outer shell 60 and electrically connects the interposing member 40 and the outer shell 60. The retainer 80 holds the inner shell 50 with the inner shell 50 held in contact with an inner surface of the outer shell 60.

An outer conductor contact element for a plug connector arrangement, having a fixing stop which engages behind a cable-side end face of a support sleeve and along a longitudinal axis (L) of the plug connector arrangement, and the cable-side end face is remote from a front, free end of the outer conductor contact element, and the fixing stop is formed in the outer conductor contact element by a male connector-side edge of a material cut-out in the outer conductor contact element that is proximate to a front, free end of the outer conductor contact element. Alternatively, or in addition, the fixing stop is formed by a separate stop element that is fastened to an inner wall of the outer conductor contact element. Alternatively, or in addition, the fixing stop is formed by a stamped shaping in the outer conductor contact element.

A grounding clamp includes a plate having a first and second opposite longitudinal edges extending in a first direction, and first and second opposite transverse edges extending perpendicularly to the longitudinal edges in a second direction. First and second cable fastening region extend along the first and second transeverse edges, respectively, and are configured to fasten and electrically contact first and second cables to the plate, respectively. An opening is arranged between the cable fastening regions for inserting a fastener. An arm extends from the first or second longitudinal edge in the second direction so that the arm runs parallel to the first and/or second cable fastening region. A tab extends at a free end of the arm parallel to the first and/or second longitudinal edge and perpendicularly to a plane of the plate in a direction of an underside of the plate.

It is aimed to externally fit a sleeve formed into a tubular shape to a braided wire. A mounting device is a device for mounting a tubular sleeve on a coaxial cable having a front end part of a braided wire exposed in front of a sheath to externally fit the sleeve to the braided wire, and is provided with an expansion restricting jig including an expansion restricting portion for restricting expansive deformation of the braided wire and relatively displaceable in an axial direction with respect to the braided wire with the expansion restricting portion held in contact with an outer peripheral surface of the braided wire. The expansion restricting jig is formed with a positioning portion for positioning the sleeve concentrically with the braided wire with the sleeve arranged forward of the expansion restricting portion.

A vehicular camera includes a front housing portion, a first circuit board having an imager, a second circuit board in board-to-board electrical connection with the first circuit board, and a rear housing portion having a connector for electrically connecting to an electrical connection of a wire harness of a vehicle. The rear housing portion joined with the front housing portion forms a camera housing. The connector of the rear housing portion includes a multi-pin connector having at least three terminals that, with the rear housing portion joined with the front housing portion, electrically connect to respective terminals of the electrical connector at the second circuit board. An electrically conductive metallic shield element is disposed at the rear housing portion and contacts the electrical connector at the second circuit board. The vehicular camera is configured to be mounted at a rear portion of the vehicle and viewing rearward of the vehicle.

The subject of the present invention is a device for the electromagnetically compatible connection of electrical conductors (3.sub.1, 3.sub.2, 3.sub.n) with screening layers (2.sub.1, 2.sub.2, 2.sub.n) against interference fields, particularly in motor vehicles. The conductors (3.sub.1, 3.sub.2, 3.sub.n) to be connected are held in a housing (5) of the device, also known as a high-voltage distributor. In order to guarantee the electromagnetic screening, the screening layers (2.sub.1, 2.sub.2, 2.sub.n) of the stripped cables are folded backwards and pulled over contact sections (1.sub.1, 1.sub.2, 1.sub.n) of the housing (5) provided for the purpose, as a result of which electrical contacting occurs. The screening layers (2.sub.1, 2.sub.2, 2.sub.n) are affixed by one clamp (4.sub.1, 4.sub.2, 4.sub.n) respectively.

The invention is related to a crimping tool. The crimping tool includes a connection rod having one end pivotally connected to the first handle and the other end of the connection rod pivotally connected to a crimp section. A first screw rod is disposed at the second handle of the crimping tool. The first screw rod drives the connector which leads the first handle to displace. The movement of the first handle leads a connection rod to displace. As a result, the position of a crimp section on the first handle can be adjusted.

A coaxial cable connector assembly and a receptor connector are provided. The coaxial cable connector assembly is composed at least of one cable end connector and the receptor connector. The receptor connector is formed of an insertion space with a lateral insertion opening to allow one portion of the cable end connector to be inserted into the insertion space through the lateral insertion opening such that the cable end connector and the receptor connector are in electrical connection. The cable end connector will be constrained such that it cannot be detached from the receptor connector in the direction other than the lateral insertion opening.