Disclosed is an integrated radio network that can host a plurality of network operators, each of which may be transmitting and receiving packetized signals over a fronthaul network. Each of the network operators may have one or more prioritized packet streams whereby a given network operator may have a plurality of prioritized packet streams having a different allocated priority, and the plurality of network operators may have a differentiated priority among each other. The integrated radio network has a switch/monitor that (1) identifies one or more network operators exceeding their respective allocations and mitigates the violation; and (2) identifies fronthaul network bottlenecks and takes action to mitigate the bottleneck by reducing or impeding low priority packet streams.
A female equipment port a first portion having a first diameter, a second portion having a second diameter and a threaded portion, a base portion structurally integral with the first portion and the second portion, wherein the first portion axially extends from the base portion, a transition portion axially separating the first portion and the second portion, wherein the first diameter is greater than the second diameter, wherein the first portion, the second portion, and the transition portion are configured to engage portions of a seal member of a cable connector to form a plurality of environmental seals is provided. Associated methods are also provided.
Embodiments of an apparatus for minimizing oscillation of an amplifier in an antenna system are provided. These embodiments can comprise passive circuitry in the form of a coupling simulator that includes passive elements selected and combined to generate an output with properties that can cancel or substantially reduce a coupled input as between two antennas in the antenna system. In one example, the coupling simulator may include a phase-shifting device and an attenuating device, each of which have properties with values selected based on parameters that result from the relationship between the antennas of the antenna system.
A compression connector for smooth walled, corrugated, and spiral corrugated coaxial cable includes an insulator disposed within the body, wherein the insulator contains a central opening therein which is dimensioned smaller than a collet portion which seizes a center conductor of the coaxial cable. The connector also includes a clamp disposed inside the body as well as a compression sleeve assembly. An intermediate connector element includes a transitional surface which interacts with the clamp. When an axial force is applied to the compression sleeve, the clamp is forced by the transitional surface into the body, causing the clamp to squeeze onto an outer conductor layer of the coaxial cable. At approximately the same time, the collet portion is forced through the central opening of the insulator, causing the collet portion to squeeze onto the center conductor.
A cover and a system of covers for placement in sealed relation over a connector or a pair of connectors that is or are adapted to terminate a cable or splice together a pair of cables. The covers include a cable end that sealingly receives a cable therein, an elongated body that provides secure cover to a cable connector, and an end that abuts a bulkhead or sealingly engages with a second cover when used in a splicing application. For spliced cables, an adapter may be fitted into a gap between surfaces of the first and second covers to provide sealing.
Managing impedance in coaxial cable termination. In one example embodiment, a method for terminating a coaxial cable is provided. The coaxial cable includes an inner conductor, an insulating layer surrounding the inner conductor, an outer conductor surrounding the insulating layer, and a jacket surrounding the outer conductor. The method includes various acts. First, a section of the insulating layer is cored out. Next, the diameter of the inner conductor that is positioned within the cored-out section is reduced. Then, at least a portion of an internal connector structure is inserted into the cored-out section so as to surround the section of reduced-diameter inner conductor. Finally, an external connector structure is affixed to the internal connector structure. A coaxial cable termination tool for use in the termination of a coaxial cable and a terminated coaxial cable are also disclosed.
A connector seal including at least one cylindrical coaxial cable connector, and an elastic sleeve rolled upon itself. The sleeve is configured to unroll to enclose at least a portion of the connector. The portion of the connector may be a connection location between two of the connectors. The portion of the connector may have at least one of differing surface shapes and differing diameters. The elastic sleeve may be fastened to an exterior portion of the connector, may be pre-positioned on the connector, and may be configured to be removed entirely from the connector. A release liner covering one side of the elastic sleeve may be rolled up with the elastic sleeve. The release liner may be elastic and may be latex.
A method for forming a conductive elastomer by applying or spray coating a conductive paste onto an elastomeric substrate using a reactive top coat to thin the conductive paste prior to spraying onto the substrate. The use of a reactive topcoat to thin the conductive paste avoids the need for hazardous volatile organic components as solvents to thin the conduct paste and improves the bonding of the conductive paste to the elastomeric substrate once the spray coating is cured.
B05D 5/12 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces pour obtenir des effets, finis ou des structures de surface particuliers pour obtenir un revêtement ayant des propriétés électriques spécifiques
37.
Open compression-type right angle coaxial cable connector
A tool for changing first and second parts of a connector from a pre-assembly relationship into an assembled relationship. The tool is portable and has a frame with an operating mechanism thereon. The operating mechanism has a plunger that is movable to thereby change the relationship of the connector parts. The operating mechanism is operable by a pressurized fluid within a container that is connected to the frame.
H01R 43/00 - Appareils ou procédés spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation de connecteurs de lignes ou de collecteurs de courant ou pour relier les conducteurs électriques
A connector seal including at least one cylindrical coaxial cable connector, and an elastic sleeve rolled upon itself. The sleeve is configured to unroll to enclose at least a portion of the connector. The portion of the connector may be a connection location between two of the connectors. The portion of the connector may have at least one of differing surface shapes and differing diameters. The elastic sleeve may be fastened to an exterior portion of the connector, may be pre-positioned on the connector, and may be configured to be removed entirely from the connector. A release liner covering one side of the elastic sleeve may be rolled up with the elastic sleeve. The release liner may be elastic and may be latex.
A cover/boot and a system of covers/boots for placement in sealed relation over a connector or pair of connectors that is or are adapted to terminate a cable or splice together a pair of cables, preferably cables that carry signals received by a receiving apparatus on a cell tower. The covers include a cable end that sealingly receives a cable therein, an elongated body that provides secure cover to a cable connector, and an end that abuts a bulkhead or sealingly engages with a second cover when used in a splicing application.
A coaxial cable connector having an insulator is provided, the connector insulator including a body having a circumferential surface and a central longitudinal axis, the body having a first axial end and a second axial end and having a first reentrant cavity extending from the first end toward the second end, wherein at least a portion of a wall surface of the first reentrant cavity is oblique to a central axis of the body. A corresponding method of insulating a coaxial cable connector is disclosed.
A compression connector for smooth walled, corrugated, and spiral corrugated coaxial cable includes an insulator disposed within the body, wherein the insulator contains a central opening therein which is dimensioned smaller than a collet portion which seizes a center conductor of the coaxial cable. The connector also includes a clamp disposed inside the body as well as a compression sleeve assembly. An intermediate connector element includes a transitional surface which interacts with the clamp. When an axial force is applied to the compression sleeve, the clamp is forced by the transitional surface into the body, causing the clamp to squeeze onto an outer conductor layer of the coaxial cable. At approximately the same time, the collet portion is forced through the central opening of the insulator, causing the collet portion to squeeze onto the center conductor.
A compression connector for a coaxial cable includes a connector body having opposing first and second ends and a center passageway defined therethrough, an insulator disposed within said center passageway adjacent said first end of said connector, and a compression sleeve movably connected to the second end of said connector body. The outer conductor of a prepared coaxial cable end and the center conductor are each seized in sequence based on axial movement of the compression sleeve upon insertion of a prepared cable end. The compression sleeve is axially movable from the second end to the first end to sequentially enable clamps to engage and seize each of the outer and center conductors.
A tool for changing first and second parts of a connector from a pre-assembly relationship into an assembled relationship. The tool is portable and has a frame with an operating mechanism thereon. The operating mechanism has a plunger that is movable to thereby change the relationship of the connector parts. The operating mechanism is operable by a pressurized fluid within a container that is connected to the frame.
H02G 1/12 - Méthodes ou appareils spécialement adaptés à l'installation, entretien, réparation, ou démontage des câbles ou lignes électriques pour supprimer l'isolant ou l'armature des câbles, p. ex. de leur extrémité
A compression connector for smooth walled, corrugated, and spiral corrugated coaxial cable includes an insulator disposed within the body, wherein the insulator contains a central opening therein which is dimensioned smaller than a collet portion, or second clamp, which seizes a center conductor of the coaxial cable. The connector also includes a first clamp disposed inside the body as well as a compression sleeve assembly. The body includes a transitional surface separating the body into two regions of different inside diameter. When an axial force is applied to the compression sleeve, the clamp is forced by the transitional surface into the body region having a smaller diameter, causing the clamp to squeeze onto an outer conductor layer of the coaxial cable. At approximately the same time, the collet portion is forced through the central opening, causing the collet portion to squeeze onto the center conductor.
A connector for the end of a segment of coaxial cable is provided wherein the compression connector includes a clamp that is engageable to the outer conductor of the segment of coaxial cable and a collet that can seize the center conductor of the cable, wherein the engagement of the outer conductor and the seizure of the center conductor can occur as separate steps and the center conductor can be prevented from being seized until after the outer conductor has been engaged.
A compression connector for the end of an annular corrugated coaxial cable is provided wherein the compression connector includes a clamp having a plurality of through slots and a spring to enable the cable to be positioned so as to be securely engageable to/within the connector without causing deformation of the cable and also to allow the cable to be prepared by being cut at a corrugation valley rather than a corrugation peak.
A connector for coupling an end of a coaxial cable, the coaxial cable having a center conductor surrounded by a dielectric, the dielectric being surrounded by a spiral corrugated thin-walled conductor. The connector includes a connector body, a fastener member including a central passageway has a grooved surface dimensioned for closely receiving the spiral corrugated thin-walled conductor. The central passageway compresses inwardly to decrease the volume of the central passageway when moved toward the second end of the connector body causing a minor distortion of the spiral corrugated thin-walled conductor of the coaxial cable as said fastener member is advanced over the connector body toward the second end of said connector body.
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