An electrical connector includes: an insulator; a terminal secured in the insulator and having a front mating portion, a tail portion, and an intermediate portion; an outer conductor receiving the insulator; and a rear metallic plate secured to the outer conductor, wherein the terminal intermediate portion includes a vertical part having a protrusion exposing rearwardly to air and spaced a predetermined distance from the rear metallic plate.

An electrical connector includes: an insulator; a terminal secured in the insulator and having a front mating portion, a tail portion, and an intermediate portion; an outer conductor receiving the insulator; and a rear metallic plate secured to the outer conductor, wherein the terminal intermediate portion includes a vertical part having a protrusion exposing rearwardly to air and spaced a predetermined distance from the rear metallic plate.

A shielding spring shell has a contact tab with a pair of spring sections adjoining a fillet. One of the spring sections is an at least radially resilient radial spring and another of the spring sections is an at least axially resilient axial spring.

A tap includes an input configured to be connected to a line. The tap also includes a first signal conditioning circuit having a first signal conditioning effect on downstream signals, upstream signals, or both. The tap also includes a second signal conditioning circuit having a second signal conditioning effect on the downstream signals, the upstream signals, or both. The second signal condition effect is different than the first signal conditioning effect. The tap also includes one or more subscriber ports configured to be connected to a subscriber premises. The tap also includes a path-selection device connected to the input, the first signal conditioning circuit, and the second signal conditioning circuit. The path-selection device is configured to selectably route the downstream signals from the input, through the first and second signal conditioning circuits, to the one or more subscriber ports.

A spring-loaded interconnect includes a forward interconnect subassembly and a rearward interconnect subassembly with a flexible cable extending between each subassembly. The flexible cable includes a plurality of curved sections, and a plurality of substantially straight sections integral with the plurality of curved sections. The plurality of curved sections and the plurality of substantially straight sections are pre-configured within the spring-loaded interconnect such that the flexible cable and a spring compress, relax, and axially travel a predetermined distance when at least one external load is applied to at least one end of the spring-loaded interconnect.

A connector assembly that may include a connector portion and an adapter portion that are configured to be coupled to each other. The connector and adapter portions may include first and second conductor portions that are configured to be electrically connected to each other. The first and second conductor portions each may include perimeter end portions that are configured to contact each other when the connector portion and the adapter portion are coupled to each other. One of either the first conductor portion or the second conductor portions may include a perimeter end portion and a radially inward extending end portion that may be configured to extend radially inward from the perimeter end portion of the one conductor and may be axially spaced apart in an axial direction from an inward extremity end portion of the other conductor when the connector portion and the adapter portion are coupled to each other. The perimeter end portions of the first and second conductor portions may be configured to maintain electrical contact between the first and second conductor portions so as to improve signal propagation reliability or continuity between the connector and the adapter during operation of the connector assembly.

A cable termination that enables the attachment of SMA connectors to controlled-impedance cables with a conductive foil wrap shield; for the separate ferrule embodiment, the sheath is stripped back on the cable, exposing the foil shield surrounding the dielectric; a ferrule is slid or clamped over the foil shield and bonded; the face of the ferrule is dressed so that the foil shield and dielectric are flush with the ferrule face and the signal conductor protrudes from the face this cable subassembly is installed in the boss of a housing that prevents movement of the ferrules relative to each other and so that each ferrule face is aligned with an opening in the boss through which an SMA connector barrel is attached to the ferrule a cover secures the cable subassembly in the housing.

A cable connector includes a housing, a conductive insert affixed within the housing, a first conductive plug, and a second conductive plug. The housing defines a first port, a second port, a third port, and a fourth port. The first conductive plug and the second conductive plug are removably affixed to the housing. The first conductive plug further includes a dust cap and an insulating pin that is rotationally fixed to the dust cap. The first conductive plug provides a single structure that is configured to block moisture and engage the first center conductor against the first end of the conductive insert. Alternatively, the first conductive plug may include a dust cap, an insulator and a pin that are rotationally affixed to one another.

A cable connector includes a housing, a conductive insert affixed within the housing, a first conductive plug, and a second conductive plug. The housing defines a first port, a second port, a third port, and a fourth port. The first conductive plug and the second conductive plug are removably affixed to the housing. The first conductive plug further includes a dust cap and an insulating pin that is rotationally fixed to the dust cap. The first conductive plug provides a single structure that is configured to block moisture and engage the first center conductor against the first end of the conductive insert. Alternatively, the first conductive plug may include a dust cap, an insulator and a pin that are rotationally affixed to one another.

A splitter with equidistant output ports is disclosed herein. In exemplary aspects, the splitter includes a housing, a printed circuit board (PCB) assembly positioned therein, an input port, and a plurality of output ports. The printed circuit board assembly includes a PCB, an input conductor attached to a first surface of the printed circuit board at an input contact point, and a plurality of output conductors attached to a second surface of the PCB. The input port and the plurality of output ports are attached to the housing and surround at least a portion of the input conductor and the plurality of output conductors. The plurality of output ports includes at least three output ports, wherein each output port of the plurality of output ports, and each of the corresponding output conductors, are circumferentially positioned around the input contact point. Thus, the splitter provides improved signal balance and transfer.