A connector or adaptive connector includes a first subassembly and a second subassembly with each subassembly including a center conductor and terminating at one end in a termination portion forming a connector portion. The subassemblies interface with each other to slide with respect to each other. A spring acts on each of the subassemblies to bias the subassemblies to slide away from each other and a sleeve contains the subassemblies and spring, the sleeve securing at least one of the subassemblies while allowing movement of the other of the subassemblies in the sleeve for varying the length of the connector. Each subassembly center conductor includes a respective portion of an electrical contact that cooperate to form a center conductor for the connector. The portions of the electrical contact are configured to slide relative to each other when the connector varies in length for maintaining an electrical signal path through the connector.

Coaxial cable adapters and connectors are provided that are particularly suited for use in high power applications. A flowable insulator filling a cavity within the adapters and connectors improves heat conduction from inner conductors outwards while providing electrical insulation around the inner conductors.

Various configurations of connector assemblies are disclosed herein. Each variation of connector assembly includes at least one conductive outer housing, one or more dielectrics, and conductors, some of which may be configured as compressible electrical contacts manufactured from a tube. One embodiment of the compressible electrical contact includes a first contact end, a second contact end opposing the first contact end, and a plurality of cut sections defined by at least one cut angle measured between a pair of outwardly extending opposing inner surfaces, an innermost cut distance, and an outermost cut distance. Each of the plurality of divaricated-cut sections is based on at least one divaricating pattern.

A vehicular camera assembly includes a camera housing, a circuit board having an imager and a first electrical connector. A rear portion of the camera housing includes an attachment portion having an aperture, and includes a first electrically conductive element at the aperture. A second electrical connector is attached at the rear portion of the camera housing. The second electrical connector includes (i) a connector portion for connecting to a vehicle wire harness, (ii) a connecting end for connecting to the first electrical connector, and (iii) a second electrically conductive element for electrically connecting to the first electrically conductive element. As the second electrical connector is attached at the rear portion of the camera housing, the first electrically conductive element engages the second electrically conductive element to establish and maintain electrically conductive connection between the first and second electrically conductive elements.

The present invention relates to a connection having a joint with a limited range of motion, the connector including: a connection connector including a connection signal pin, a connection dielectric surrounding the connection signal pin, and a connection ground electrically insulated from the connection signal pin by the connection dielectric; and a first fixed connector into which one side of the connection connector is inserted and which allows a joint of the connection connector to move on the basis of the inserted one side of the connection connector, wherein the connection ground includes a connection protruding portion formed so that one end of the connection ground protrudes outward, a connection limiting portion which is adjacent to the connection protruding portion, has a thickness smaller than a thickness of the connection protruding portion, and comes in contact with an inner side of the first fixed connector to limit a range of motion of the joint of the connection connector, a connection elastic portion which is adjacent to the connection limiting portion and has a thickness smaller than a thickness of the connection limiting portion, and a plurality of connection slits which are formed along a circumference of the connection protruding portion and extend from one end of the connection connector in a longitudinal direction of the connection connector so that the connection protruding portion, the connection limiting portion, and the connection elastic portion are separated into a plurality of pieces.

The application relates to a connector, intended to transmit radio frequency RF signals, of longitudinal axis X, including: a central contact under the form of an elongated flat strip which at least one of its ends is shaped as a fork with two flexible branches to define inwardly a cavity extending along the axis X for receiving a contact pin of one complementary connector, the two flexible branches of the fork being configured such that to apply a contact force to the contact pin; at least one solid insulating structure in which the central contact is mechanically retained, one of its ends of the insulating structure being configured to let the two flexible branches to move freely radially and to guide the contact pin while enabling its swivelling when inserted into the cavity (C) defined by the fork.

A connector or adaptive connector includes a first subassembly and a second subassembly with each subassembly including a center conductor and terminating at one end in a termination portion forming a connector portion. The subassemblies interface with each other to slide with respect to each other. A spring acts on each of the subassemblies to bias the subassemblies to slide away from each other and a sleeve contains the subassemblies and spring, the sleeve securing at least one of the subassemblies while allowing movement of the other of the subassemblies in the sleeve for varying the length of the connector. Each subassembly center conductor includes a respective portion of an electrical contact that cooperate to form a center conductor for the connector. The portions of the electrical contact are configured to slide relative to each other when the connector varies in length for maintaining an electrical signal path through the connector.

A vehicular camera assembly includes a front housing portion accommodating a lens, a circuit board having a connecting element, and an electrical connector. The rear housing portion includes a rear attachment portion that has an aperture therethrough. The electrical connector electrically connects a wire harness of the vehicle to the connecting element of the circuit board. The electrical connector includes an electrically conductive element that is electrically conductively connected to a coaxial or shielded wire connecting element of the electrical connector. The rear housing portion includes an electrically conductive element that protrudes through the aperture. As the electrical connector is attached at the rear attachment portion, the electrically conductive element of the rear housing portion engages the electrically conductive element of the electrical connector to establish and maintain electrically conductive connection between the electrically conductive elements.

The present utility model discloses a coaxial connector, including a metal casing, an insulation body, and a central terminal. The metal casing includes a housing surrounding a central shaft to define an accommodation space, and a plurality of contact arms connected to the housing. The housing has a front housing surface and a rear housing surface. The rear housing surface has a non-antioxidation-treated surface portion. The contact arms are connected to the front housing surface. The insulation body surrounds the central shaft to define a positioning hole, and includes a front end surface, a rear end surface, an insertion slot recessed from the rear end surface and in communication with the positioning hole, and a wall covering portion extending radially from a position near the rear end surface to cover part of the non-antioxidation-treated surface portion. A central terminal passes through the positioning hole and includes a first contact end portion adjacent to the contact arms and a second contact end portion located at the insertion slot.

Provided is a connector module that is highly durable and that also allows easy position alignment with a connection target instrument while maintaining high shielding performance. The connector module includes a connector case and a connector inserted in the connector case. The connector includes a contact, a holder, a conductive tubular shell, a housing and a conductive shield case. The shield case includes a first member having an elastic portion and a second member in the form of a bottomed tube. The first member forms an elastic piece contactable with the second member. Fixing of the connector case to a main body case via a fastener member causes, in the connector, elastic deformation of the elastic piece, resulting in decrease in a gap between the first member and the second member, consequently in establishment of electrical connection between the first member and the second member.