An optical cable termination unit includes a case, a first adapter panel that is disposed in the case and includes a plurality of first adapters each configured so that a corresponding one of a plurality of optical connectors is connectable thereto and disconnectable therefrom and a first surface on which the plurality of first adapters are arranged, and a second adapter panel that is disposed in the case and includes a plurality of second adapters each configured so that a corresponding one of a plurality of optical connectors is connectable thereto and disconnectable therefrom and a second surface on which the plurality of second adapters are arranged. The first and second surfaces are separated from each other. The first adapter panel is configured to be movable relative to the second adapter panel so that the first surface and the second surface are capable of becoming parallel to each other.

Infrared Remote Over Video Fiber (IROVF) transports any combination of uncompressed/unprocessed/native full quality, full bandwidth, zero latency, and mixed analog and digital signals including audio, video, data, Ethernet, USB, S/PDIF, and TOSLINK, over a fiber optic based cable added with integrated infrared remote control capabilities to remote control uni/bi-directional audio video and IR devices remotely from either sides of the cable Without requiring additional processing adapters, nor processing or reducing the specs of the other carried audio-video data signals which stays original uncompressed, untouched, and unprocessed for a perfect as-is full original functionality and quality.

An improved deepwater optical fiber cable with abrasion protection and techniques for manufacturing the same are provided. For example, the abrasion protected deepwater cable may be a modification or enhancement of an existing special application (SPA) optical fiber cable. One or more additional layers of metallic tape and jackets may be added to the outermost layer of the SPA cable. The tape and jacket layers may have different thicknesses and may be made from different materials to optimize protection against man-made objects or otherwise naturally occurring materials in deep water environments, such as fish aggregation devices (FADs).

Cables that include a conductor and an optical fiber. In some embodiments, the cable can include an optical fiber loosely disposed within an enclosure. A conductor layer can be disposed about the enclosure. An insulation layer can be disposed about the at least one conductor layer. An inner layer of armor strength members can be helically disposed about the insulation layer. An outer layer of armor strength members can be helically disposed about the inner layer of armor strength members. The armor strength members in the outer layer of armor strength members can be at an opposite helix compared to the armor strength members in the inner layer of armor strength members. An outer jacket can be disposed about the outer layer. In other embodiments, the cable can include an optical fiber in a coupled electro-optical package, where the conductor layer can be disposed about the electro-optical package.

A reticulated tube includes: a plurality of openings that are reticulately formed; peripheral parts that form the openings; and a branch part that is formed in a boundary of three or more openings. The branch part includes three or more peripheral parts extending from the branch part. The reticulated tube is configured to accommodate a plurality of optical fibers inserted through the reticulated tube. The peripheral parts are restricted by the branch part and are bendable.

An optical fiber cable having reduced surface friction may include a low-friction, fire retardant cable jacket structure. The cable jacket structure may include a thicker, highly fire-retardant cable jacket, and a thinner, low-friction skin layer formed over the cable jacket.

A jacket is provided to the outer circumference of a cable core, a rip cord, and a tension member. The cable core, the rip cord, and the tension member are collectively covered by the jacket. A wrapping tape is longitudinally placed on the outer circumference of a core part so as to be wound therearound. Thus, immediately after the wrapping tape is longitudinally placed and wound, a wrap part thereof is formed so as to lie substantially straight in the axial direction of an optical fiber cable. In contrast, in an optical fiber cable, the cable core is obtained by combining and intertwining the core part and the wrapping tape. Because of this configuration, the wrap part of the wrapping tape is helically disposed in the longitudinal direction.

This optical fiber cable is a central-core-type cable in which slotted rods are not used, and is composed of a core, a wrapper, a tension member, a ripcord, a sheath, and the like. The core is formed by twisting together a plurality of optical fiber units without back-twisting. The optical fiber units are formed by twisting together a plurality of intermittently-fixed optical fiber ribbons. A direction in which the optical fiber ribbons are twisted together is same as a direction in which the optical fiber units are twisted together.

A cable may include an optical fiber and a tight buffer layer formed around the optical fiber. Additionally, a conductive toner wire may be coupled to the tight buffer layer in order to reduce shrinkage of the tight buffer layer due to low temperatures. A maximum distance between the optical fiber and the toner wire may be 1.0 mm.

Fiber pistoning apparatus and methods of use are provided. A fiber anti-pistoning apparatus includes an axial centerline, and an elongate main body that at least partially surrounds the axial centerline and extends from a first end to a second end of the elongate main body. The elongate main body defines a channel that extends along the axial centerline for housing a bundle of fibers. The channel extends between a first opening at the first end, a second opening at the second end, and a slotted opening between the first end and the second end for receiving the bundle of fibers. The elongate main body includes one or more retention features for coupling to a first buffer tube.