The present disclosure describes a coaxial cable-connector assembly. The coaxial cable-connector assembly including a coaxial cable, a coaxial connector, and a polymeric sleeve. The outer connector body is swaged or crimped onto the polymeric sleeve. An end of a corrugated outer conductor of the coaxial cable is flared radially outwardly to form a flared end that secures the polymeric sleeve onto the coaxial cable. The polymeric sleeve separates the corrugated outer conductor of the coaxial cable from the outer conductor body of the coaxial connector to prevent direct radial electrical connection therebetween and the polymeric sleeve axially forces the flared end of the outer conductor of the coaxial cable in contact with a shoulder of the outer connector body of the coaxial connector. Additional coaxial cable-connector assemblies and related methods of assembling the same are described herein.

A communication connector has an outer housing with an opening, a shielding wrap at least partially enclosing the outer housing, and a contact carrier assembly configured to be interested into the opening of the outer housing. The contact carrier assembly at least partially encloses at least two contacts each with an insulation displacement contact (IDC). The contact carrier assembly also has an integrated wire cap that utilizes a hinge feature to press cable conductors of a cable into their respective IDCs.

A connection assembly for the electrical and mechanical connection between a contact electrode and an electrical conductor element has a flexible sensor/electrode section in which the contact electrode is at least partially arranged. The connection assembly has at least one electrical inner conductor of the electrical conductor element for applying and/or removing an electrical voltage and/or capacitive change at the contact electrode. An electrical contact region is provided in which the at least one electrical inner conductor makes electrical contact with the contact electrode of the sensor. A connecting device is provided which can be prestressed against the contact electrode of the sensor in the contact region, with interposition of the inner conductor.

A cable includes an electrical connector at one end and a sensor at the other end. The connector includes a terminal module having a plurality of contacts embedded within an insulator wherein each contact has a resilient contacting section exposed upon to an exterior in a first vertical direction, and a soldering section exposed in a second vertical direction to be connected to the corresponding wires of the cable and selectively further to a resistor. The sensor includes a case enclosing an LED (Light Emitting Diode) and a PD (Photo Diode both of which are respectively connected to the corresponding contacts respectively soldered to the corresponding wires.

The present disclosure aims to provide a connector capable of suppressing an increase in the number of components. A retainer 50 includes a body portion 51 having a plurality of through holes through which a plurality of wires 20 are individually passed, and a plurality of holding portions 53 projecting from the body portion 51 to individually hold the plurality of wires 20. Each of the plurality of holding portions 53 includes a resilient piece 54 resiliently deformable in a second direction intersecting a first direction in which the holding portion 53 projects. A supporting member 60 is collectively mounted on outer peripheral surfaces of the plurality of holding portions 53. The supporting member 60 presses the resilient pieces 54 against outer peripheral surfaces of the wires 20.

A connector backshell assembly includes a module hood sealable against a connection port having a first connector, a harness hood configured to house a second connector mateable with the first connector, a backshell configured to provide strain relief to a wire harness extending from the second connector and securable on the harness hood after the second connector is housed within the harness hood, and a latch assembly having a latch handle moveable from a first position into a second position to move the harness hood into sealing engagement with the module hood.

Electrical connectors for automatic swimming pool cleaners (APCs) are described. The connectors may be positioned on, at, in, or near bodies of the APCs and configured to be submerged in water of swimming pools. They additionally may be designed to withstand mechanical pulling stresses when their associated electrical cables are pulled by users to remove APCs from the pools. If such a connector is separable, essentially the entirety of the electrical cable may be separated from the APC for purposes of untangling or storing the cable, as examples. The separation additionally may allow for insertion of one or more extension cables as needed or desired.

A cable connector includes an outer housing, an inner housing including a first housing and a second housing assembled with each other, and a cable assembly retained between the first housing and the second housing. The cable assembly includes a pair of terminals, two wires, and a sleeve. The second housing defines a group of first holding portions for holding the wires. The first housing and the second housing each define a group of second holding portions for commonly holding the sleeve.

A plug arrangement for use with cables (K) having cable plugs (S) comprises a housing (1) for receiving the cable plug (S), a clamping element (5) encompassing the cable (K) and accommodated in the housing (1), which clamping element (5) clamps, in a compressed state, the cable (K), and a clamping sleeve (3) for establishing a threaded connection with the housing (1). When the threaded connection is tightened, the clamping element (5) is braced in the housing (1) and the cable (K) is clamped in the clamping element (5). The front end of the clamping element (5) facing the cable plug (S) is configured for receiving and positioning the cable plug (S) in a predetermined position at the front end of the clamping element (5) or is provided with at least one stop for the cable plug (S). Thus, when the threaded connection is tightened, the cable plug (S) is also positioned with respect to the housing (1) and the clamping element (5) so as not to rotate and fixed.

A pre-wired management fastening device, including a tubular part composed of an integrally formed upper tubular party and a lower tubular part. An included angle is formed between the upper tubular and the lower tubular. Inside the tubular part has a channel. The front end of the tubular part has a cable clamping mechanism. The rear end of the tubular party is locked on the inlet of the electric plug connector or electric plug slot. It is convenient for the construction of on-site personnel, which makes the wiring of the cable more beautiful and reduces the difficulty of construction.