The present disclosure describes grommets formed of a polymeric material and adapted for holding a plurality of discrete cables. A grommet may comprise two halves, each half comprising: a main body having a generally arced outer surface, a plurality of angled cantilevered tines integrally coupled to the main body and extending generally radially inward from the main body; and a slidable interconnection feature integral with the main body, wherein the slidable interconnection feature for each respective half is dimensioned to mate with the slidable interconnection feature of the other half, allowing the two halves to slide into an interlocking position with each other when compressed together

Aspects and techniques of the present disclosure relate to handheld tools for assisting in routing optical fiber, and including advantageous features and methods usable with handheld tools. Disclosed features and techniques relate to: a splicing station, a spool, a groove plate; a substrate; a fiber management device; a tool; and flexible organizers.

Some embodiments may include a fiber management cartridge, comprising: a plurality of sheets of material arranged in a stack, each sheet including: a first section to fasten to a surface; and a second section to make movement relative to the surface when the first section is fastened to the surface, the second section to hold one or more loops of one or more optical fibers, respectively, of a fiber laser. Other embodiments may be disclosed and/or claimed.

A rollable ribbon separator tool for separating fibers in a rollable ribbon, the rollable ribbon separator including a chassis having a length and a guide surface along the chassis length for receiving a first portion of a rollable ribbon in a flattened position, the guide surface for positioning the first portion of the rollable ribbon having a first node with selected fibers to be separated, the selected fibers being positioned flat on the guide surface. The rollable ribbon separator includes a blade securable to the chassis, the blade having a cutting edge positioned toward the guide surface at an acute angle to the guide surface. The angle of the blade cutting edge with respect to the guide surface allows the cutting edge to urge the first portion of the flattened ribbon fibers against the guide surface when the fibers are drawn through the chassis along the guide surface.

An end stop for a fibre optic cable tube which is open at one end and closed at the opposite end. A connector at one end connects to a respective tube. An annular wall extends from the closed end and is spaced radially inwardly from the outer wall of the housing defining an air gap. An inner face of the annular wall receives the tube. The annular wall and housing may be transparent. The connector may be a collet within the housing which engages on a cam feature in the housing.

A cable anchor includes an anchor mounting structure and a cable mounting structure. The anchor mounting structure can releasably mount to a support plate along either of two paths. The cable mounting structure secures one or more cables to the cable anchor. Some example cable mounting structures are configured to receive wrap-style fasteners to hold cables. Other example cable mounting structures include fanout bodies configured to receive epoxy. Other example cable mounting structures include cavities configured to engage overmolded retention features of a cable.

The present disclosure relates to a fiber management device or system for facilitating routing and storing optical fibers. The fiber management device includes a flexible, film-like substrate that has optical fiber management, storing functionality, and splicing functionality all on one film-like substrate. The flexible, film-like substrate can provide a routing path for routing optical fibers onto a flexible planar substrate that can be temporarily supported by, mounted on or attached to the flexible planar substrate. The flexible, film-like substrate can accommodate fibers that are in a multi-fiber (e.g., ribbon) configuration or a single fiber configuration.

A multi-element fiber scanner for scanning electromagnetic imaging radiation includes a base having a base plane and a longitudinal axis orthogonal to the base plane and a fiber link passing through the base in a direction parallel to the longitudinal axis. The fiber link is operatively coupled to at least one electromagnetic radiation source. The multi-element fiber scanner also includes a retention collar disposed a predetermined distance along the longitudinal axis from the base and a first set and a second set of piezoelectric tubes. First and second piezoelectric tubes of the first set are joined to the base and extends from the base and first and second piezoelectric tubes of the second set are joined to the retention collar and extend from the retention collar.

A fiber optic communications arrangement includes a closure with an interior volume; the closure including at least one cable through-port in communication with the interior volume; and an expansion component attached to an exterior portion of the closure and having an interior region in communication with the closure interior volume. The expansion component includes ruggedized fiber optic adapters mounted thereto. Each of the ruggedized fiber optic adapters includes at least one connector port for receiving ruggedized fiber optic connectors.

A medical system includes a tube and a plurality of clips that secure the tube in a partially spiral configuration. The medical system also includes a platform coupled to a radial exterior of the tube. The platform includes at least one hole and a plurality of retaining elements.