A method and apparatus for providing a tracer function for networked cable systems used for data or power transmission. A self contained and self powered indicator circuit is described that enables tracing the location of both ends of a networked cable.

A method of assembling an optical fiber cable on production casing includes positioning the optical fiber cable against a production casing at a hole of a well site, and affixing the optical fiber cable against the production casing by applying an adhesive to the production casing to secure the optical fiber cable against the production casing. The method further includes applying pressure to the adhesive to adhesively bond the optical fiber cable to the production casing along a length of the production casing while the production casing is being run-in-hole.

The specification relates to a fiber optic cable assembly. The fiber optic cable assembly includes: an outer sheath; fiberglass reinforced panels; a pull material; an inner jacket; a strength material; non-interlocking armor; and a tight buffer of optical fibers.

A reversible fiber optic cassette for mounting in a rack comprising a cassette receiving tray, the tray comprising a plurality of cassette engaging features is disclosed. The cassette comprises a cassette body comprising optic fiber receptacles arranged along a front of thereof, a multifiber receptacle along a back thereof and a plurality of optic fiber segments each between a respective one of the optic fiber receptacles and the multifiber receptacle, and a securing component comprising a main part comprising a first surface and a second surface opposite the first surface, a cassette engaging part extending from the first surface for engaging with the cassette body, a tray engaging feature extending from the second surface and engageable with one of the cassette engaging features. The reversible securing component is secureable on either side of the cassette body using the cassette engaging feature.

An optically traceable patch cord includes a cable extending from a first connector at a first end to a second connector at a second end. A trace assembly in the cable is located between the first end of the cable and the second end of the cable. An optical tracing fiber extends from the trace assembly to one of the first connector and the second connector.

An optical fiber cable for providing enhanced sealing and enhanced access to an optical fiber for field terminations and/or splicing includes a jacket including a cavity extending along a length of the jacket and an optical fiber that is located in the cavity and extends the length of the jacket. The cavity is configured to have a length in a first direction that is greater than a width in a second direction that is perpendicular to the first direction. The jacket is configured to include a selectively teared portion that is located between the cavity and an outer surface of the jacket in the first direction such that the jacket is configured to tear along the length of the jacket at the selectively teared portion so as to allow for enhanced access to the optical fiber in the cavity, and the selectively teared portion created by the cavity is configured to permit the outer surface of the jacket to include a surface portion adjacent the selectively teared portion that is configured to provide enhanced sealing during operation of the optical fiber cable.

An optical fiber having an ink layer that includes an optical brightener is described. The optical brightener is a marker that permits identification of the fiber. The ink layer may also include a pigment, where either or both of the pigment and optical brightener may function as a marker for identifying the fiber. Bundles of two or more optical fibers, each of which includes an ink layer containing an optical brightener, are also described.

A method and system for reading a marker embedded in a fiber optic connector, and a connector configured to be read by the method and system. The connector includes an outer assembly and a marker that is overlaid by the outer assembly. To read the marker, the connector is illuminated with an illuminating light in a first spectral band, and an image is formed using the light within the first spectral band that is reflected from the fiber optic connector. The reflected light includes at least a portion of the illuminating light which was transmitted through the outer assembly and reflected back toward a reader by the marker. Data contained in the marker is then extracted from the image.

An optical fiber cord management system and method is provided to monitor and manage optical fiber cords weights in telecommunication equipment. The system comprise a weight sensing member arranged with a trough member for converting a force applied to the trough member by an optical fiber cord. The system may include a processor, in communication with the weight sensing member. The processor may receive force signal data from the weight sensing member.

A composite optical fiber assembly of quartz and plastic, an identification method and an identification device are disclosed. The composite optical fiber assembly of quartz and plastic includes a quartz optical fiber, a connector of the quartz optical fiber, at least two plastic optical fibers, and connectors of plastic optical fibers respectively corresponding to the at least two plastic optical fibers. The plastic optical fibers are laid on the quartz optical fiber. With the structure, whether the connectors at the two ends are properly connected can be intuitively inspected by eyes and displayed.