A high-fault-tolerance radio-frequency coaxial connector and an assembly. The radio-frequency coaxial connector comprises a radio-frequency plug, a radio-frequency socket coaxially arranged with the radio-frequency plug, and a fixing assembly used for fixing the radio-frequency socket. The radio-frequency plug and the radio-frequency socket are movably connected in a plug-in manner, and plug-in structures between the radio-frequency plug and the radio-frequency socket are arranged at equal intervals. The fixing assembly comprises a fixing plug and a columnar fixing socket, and a locking structure used for locking the radio-frequency socket is provided between the fixing plug and the fixing socket.

A high-fault-tolerance radio-frequency coaxial connector and an assembly. The radio-frequency coaxial connector comprises a radio-frequency plug, a radio-frequency socket coaxially arranged with the radio-frequency plug, and a fixing assembly used for fixing the radio-frequency socket. The radio-frequency plug and the radio-frequency socket are movably connected in a plug-in manner, and plug-in structures between the radio-frequency plug and the radio-frequency socket are arranged at equal intervals. The fixing assembly comprises a fixing plug and a columnar fixing socket, and a locking structure used for locking the radio-frequency socket is provided between the fixing plug and the fixing socket.

A first RF connector element mating with a second RF connector element includes a first terminal having a first contact region, a second terminal having a second contact region, and a first electrical insulator element electrically insulating the first terminal and the second terminal. The first electrical insulator element has a first contact support part and a first compensation part. The first contact support part is integrally formed of a first dielectric material and has a first relative dielectric constant. The first compensation part is integrally formed with the first contact support part of a second dielectric material, the second dielectric material having a second relative dielectric constant greater than the first relative dielectric constant. The first compensation part is arranged at a front end region of the first electrical insulator element and at least partly encompasses the first contact region.

A coaxial seizure assembly is disclosed that includes an integrated mechanical stop that prevents over-insertion and maintains a nominal/expected impedance value to enable high-frequency switching, e.g., 1.8-3 Ghz or greater. In more detail, the coaxial seizure assembly includes a coaxial receptacle defined by an opening configured to at least partially receive and couple to a coaxial connector. The opening communicates with a seizure cavity defined within the coaxial seizure assembly. A radio frequency (RF) interconnect at least partially extends into the seizure cavity, with the RF interconnect having a first end to electrically couple to an electrical component and a second end that extends a predetermined angle relative to the first end, e.g., substantially 90 degrees. The second end defines a mating surface that aligns within the seizure cavity such that an imaginary line drawn along an insertion path of a coaxial cable conductor pin intersects with the mating surface.

Connector for automotive applications, comprising two elongated signal contacts extending generally parallel to one another, each signal contact having a first connection portion for connecting the connector to a mating connector and a second connection portion for connecting the signal contacts to respective wires of a cable, wherein a distance between center axes of the first connection portions differs from a distance between center axes of the second connection portions.

Connector for automotive applications, comprising two elongated signal contacts extending generally parallel to one another, each signal contact having a first connection portion for connecting the connector to a mating connector and a second connection portion for connecting the signal contacts to respective wires of a cable, wherein a distance between center axes of the first connection portions differs from a distance between center axes of the second connection portions.

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 assembly for connecting a cable to an electrical component includes a plug unit and a mating plug unit, which each have an outer conductor element, an insulator element and an inner conductor element. The insulator element is disposed within the outer conductor element and includes an inner conductor channel in which the inner conductor element is disposed. The insulator element of the plug unit forms a plug profile that extends around the inner conductor channel and has at least one projection and/or depression. The insulator element of the mating plug unit forms a mating plug profile that corresponds to a negative of the plug profile. The plug unit and the mating plug unit are connectable to one another in such a way that the plug profile and the mating plug profile rest against each other, at least in some areas.

A connector and shielding ring for use with the connector includes a male portion with a shroud and a center conductor and a female portion with a jack and a socket positioned to receive the center conductor. A conductive shielding ring is positioned between the mated connector portions. The shielding ring has a body configured for surrounding flexible tines of the female portion jack and is configured to be captured between the tines and the shroud for providing a grounding path between the male and female portions of the connector. The shielding ring body has an inner surface with a diameter and an outer surface with a diameter and has a taper portion formed on a distal end of the shielding ring body for engaging a surface of the shroud. The shielding ring body has a lip extending radially inwardly at the proximal end for engaging the tines of the female portion when the male and female portions of the connector are mated.

A connector assembly for connecting a cable to an electrical component includes an outer conductor sleeve and an insulator element. The outer conductor sleeve has an attachment portion and a plug portion. The insulator element is disposed within the outer conductor sleeve, at least partially in the plug portion. The cable is disposed with a cable end portion at least partially within the outer conductor sleeve in the attachment portion. The outer conductor sleeve has at least a first wall thickness region having a first wall thickness in the attachment portion and at least a second wall thickness region having a second wall thickness in the plug portion, the first wall thickness being greater than the second wall thickness. The insulator element is at least partially disposed in the second wall thickness region.