Cable fixation assemblies for telecommunications systems. A cable support body of a cable fixation assembly defines a tie wrap passage. The tie wrap passage includes features that can improve tie wrap tightening control and/or a preferred tie wrap advancement direction when securing a cable to the cable support with the tie wrap.

An incorrect insertion and removal prevention system that can prevent an operator from incorrectly selecting a port to be operated without sacrificing the port mounting density is described. An optical transmission device 100 of the incorrect insertion and removal prevention system includes a plurality of ports 101 for transmitting and receiving an external signal, a touch sensor 102 installed in each of the ports 101 to detect a contact of the human body, a control unit 110 for causing a display unit 130 to display information about the port 101 corresponding to the touch sensor 102 detecting the contact of the human body, a storage unit 120 for storing information for distinguishing each port 101, and the display unit 130 for displaying the information for distinguishing each port 101.

An optical fiber module is disclosed. The optical fiber module includes a first optical fiber as an MCF, a plurality of second optical fibers as MCFs, a first unit, and a second unit. The first unit has an hole holding the first optical fiber and a plurality of holes respectively holding the second optical fibers. These holes are independent of each other. Each optical fiber has a first part and a second part. An outer surface of a cladding of the first part is coated with a resin. An outer surface of a cladding of the second part is exposed from the resin. The first unit holds the first part. The second unit holds the second part. A boundary between the first part and the second part is positioned in a space between the first unit and the second unit.

A fiber optic assembly is provided including a support substrate having a substantially flat surface and a signal-fiber array supported on the support substrate. The signal-fiber array includes a plurality of optical fibers. At least some of the optical fiber of the plurality of optical fibers includes a first datum contact disposed between the optical fiber and an adjacent optical fiber and each of the optical fibers of the plurality of optical fibers includes a second datum contact disposed between each of the optical fibers of the plurality of optical fibers and the support substrate. A first datum surface is disposed at a top surface of each of the plurality of optical fibers opposite the support surface.

A hand piece for handling an optical fiber during a laser-surgical intervention comprises a handle body elongated along a main axis and having a through hole extending along the main axis. A guide tube having a tube lumen aligned and communicating with the through hole is attached to the handle body. A fixing device is provided in the handle body for fixing the optical fiber extending through the through hole and the tube lumen in direction of the main axis. The guide tube is made of a shaped memory alloy, which has a transition temperature between 50° C. and 120° C., and which has a straight base shape. Below the transition temperature, the guide tube is bendable by plastic deformation out of the straight base shape into a curved shape, and, when heated up above the transition temperature, the guide tube returns to its straight base shape.

A port tracer including a housing, a light guiding tunnel, and a light guide cover. The housing has a first side and a second side opposite to each other and a third side connected to the first side and the second side. A first opening and a second opening are located on the first side and the second side respectively. The light guiding tunnel is disposed inside the housing. The light guiding tunnel has a first light entrance-exit and a second entrance-exit that face the first side and the second side respectively. The light guide cover is detachably connected to the first opening. The light guide cover covers the first light entrance-exit. The third side has a third opening. A part of the light guide cover is located inside the housing and opposite to the third opening.

A fiber enclosure with an integrated enclosure mounting system includes a base, a cover, and a clamp for securing the cover to the base. The base has an end wall with through openings extending therethrough and has a fiber management mounting frame provided on an inner side of the end wall. The mounting frame is configured to receive fiber management trays and the cover is engageable over the mounting frame and into abutment with the base and is securable to the base by the clamp to fully enclose the mounting frame and fiber management trays within a cavity formed between the cover and the base. The base also includes enclosure mounting sockets formed on an outer side surface thereof. The enclosure mounting sockets are releasably engageable with complementary shaped mounting post provided on a mounting arm to releasably secure the base to the mounting arm.

A fiber gripping tool places optical fibers extending from optical connectors in an optical condition for cleaving. The fiber gripping tool can include a first gripper having a first clamping surface extending between a front edge and a rear edge, and a second gripper having a second clamping surface extending between a front edge and a rear edge, the second clamping surface facing the first clamping surface. In one aspect, when the first and second gripper are subjected to a closing force, the closing force causes the first and second clamping surfaces to be compressed against each other to grip an optical fiber and to be displaced in a fiber pulling direction towards the rear edges of the first and second clamping surfaces.

Devices, assemblies and methods for fixing telecommunications cables. The cable fixation assemblies include cable support bodies adapted to anchor yarn strength members. A rod strength member adapter can be coupled to the cable support body to anchor a rod strength member such that the same cable support body is adapted to fix both a cable having a yarn strength member and a cable having a rod strength member.

Optical fiber mass splice methods and assemblies are provided. A method may include securing a fiber clamp to a fiber setting fixture, the fiber setting fixture including a fiber alignment block and a backstop. A plurality of fiber grooves may be defined in the fiber alignment block. The method may further include inserting a plurality of optical fibers into the fiber setting fixture such that each of the plurality of optical fibers is disposed in one of the plurality of fiber grooves and contacts the backstop. The method may further include loading, after the inserting step, each of the plurality of optical fibers into the fiber clamp. The method may further include clamping the plurality of optical fibers in the fiber clamp.