A dielectric spacer for a coaxial connector includes: a narrow ring; a wide ring attached to the narrow ring, the wide and narrow rings sharing a longitudinal axis; a plurality of posts positioned within the wide ring, each of the posts extending substantially parallel to the longitudinal axis; and a plurality of bores in the narrow ring, each of the bores extending substantially parallel with the longitudinal axis and being aligned with a corresponding post. Each of the posts is mounted on a frangible section that separates the post from its corresponding bore.

A shield wire for use with a terminal fitting has a ring (7) is fit laterally to an outer cover (4), and a braided wire (3) is folded onto an outer peripheral surface of the ring (7). A hooking edge (9) protrudes over the entire circumference on a front end part of the ring (7). A barrel (15) of an outer conductor terminal (12) is crimped to the folded braided wire (3). Thus, the hooking edge (9) of the ring (7) is widened into a horn shape to form a bell-mouth (16) with the braided wire (3) hooked to the hooking edge (9). Thus, a hooked sate of the braided wire (3) and the ring (7) is strengthened, so that a holding force of a terminal fitting (T) onto a shield wire (S) is enhanced.

A shield wire for use with a terminal fitting has a ring (7) is fit laterally to an outer cover (4), and a braided wire (3) is folded onto an outer peripheral surface of the ring (7). A hooking edge (9) protrudes over the entire circumference on a front end part of the ring (7). A barrel (15) of an outer conductor terminal (12) is crimped to the folded braided wire (3). Thus, the hooking edge (9) of the ring (7) is widened into a horn shape to form a bell-mouth (16) with the braided wire (3) hooked to the hooking edge (9). Thus, a hooked sate of the braided wire (3) and the ring (7) is strengthened, so that a holding force of a terminal fitting (T) onto a shield wire (S) is enhanced.

At radio frequencies and in particular those associated with LTE and 4G telecommunications in the region of 1 GHz and above, inherent problems have been found with historically employed interconnections that lead to distortions and impairments to the transmitted signal generically termed PIM. This invention relates to creation of a connector system that separates the mechan cal connection features from the forward and return transmission path components by use of non-conductive connector bodies and WaveWay a carefully shaped constrained linear signal path with low resistance and capacitance mating surfaces limiting parallel path distortions and smoother shapes to limit 3rd harmonic and other distortions and lower pressure contact requirements to provide at least equivalent PIM performance to conventional connectors at lower frequencies 800 MHz and improved PIM performance at 1 GHz and above.

An ear-wearable electronic device includes a shell with a cable retention slot. The cable entrance slot has an interior end and an exterior end. A bend surface extends from the exterior end of the cable retention slot to an exterior surface of the shell. The bend surface aligned with a crux of a user's ear when the ear-wearable device is installed in an ear of the user's ear. The shell may include a uniquely-shaped outer surface that corresponds uniquely to an ear geometry of the user of the ear-wearable device.

An ear-wearable electronic device includes a shell with a cable retention slot. The cable entrance slot has an interior end and an exterior end. A bend surface extends from the exterior end of the cable retention slot to an exterior surface of the shell. The bend surface aligned with a crux of a user's ear when the ear-wearable device is installed in an ear of the user's ear. The shell may include a uniquely-shaped outer surface that corresponds uniquely to an ear geometry of the user of the ear-wearable device.

A connector includes a connector body including a hole, a contact disposed in the hole and arranged such that, when the connector is connected to a substrate, the contact is connected to a corresponding electrical pad on the substrate, a conductive elastomeric interface arranged such that, when the connector is connected to the substrate, the conductive elastomeric interface is between the connector body and the substrate, and a cable connected to the contact. The contact includes a ground ferrule and a locking ferrule arranged to mate with the hole, and the hole of the connector body and the locking ferrule are at least partially threaded. When the connector is connected to the substrate and when the locking ferrule is threaded with the hole, the ground ferrule contacts at least one of the conductive elastomeric interface and the upper surface of the substrate.

A vehicular cable assembly that is easy to install and allows high transmission rates. This vehicular cable assembly includes at least two unshielded conductive signal lines that are untwisted around each other in a connection region in which the unshielded conductive signal lines are adapted to be connected to an external element and twisted around each other in a region next to the connection region. This vehicular cable assembly also includes a shielding assembly having at least one canal-like receptacle shielding part extending at least along the entire connection region and within which the unshielded conductive signal lines are disposed.

A connector assembly includes a male housing having at least one coaxial cavity and terminal cavities. At least one female housing is shaped to be disposed in the male housing when in a connected position. The at least one female housing includes a corresponding coaxial cavity relative to the male housing and corresponding terminal cavities relative to the male housing. At least one front loaded male terminal position assurance structure is disposed in the male housing. At least one front loaded female terminal position assurance structure is connected to the at least one female housing. The front loaded male and female terminal position assurance structures lock coaxial connections and terminal connections within the male and female housings when in the connected position.

A dielectric spacer for a coaxial connector includes: a narrow ring; a wide ring attached to the narrow ring, the wide and narrow rings sharing a longitudinal axis; a plurality of posts positioned within the wide ring, each of the posts extending substantially parallel to the longitudinal axis; and a plurality of bores in the narrow ring, each of the bores extending substantially parallel with the longitudinal axis and being aligned with a corresponding post. Each of the posts is mounted on a frangible section that separates the post from its corresponding bore.