A telecommunications device includes a rack defining right, left, front, rear, top, and bottom sides, the rack defining mounting locations in a stacked arrangement from the bottom to the top, the mounting locations for receiving modules defining connection locations. A cable storage bay is located at one of the right and left sides of the rack and defines front and rear cable storage areas. Both the front and rear cable storage areas include cable management structures for managing and guiding cables toward and away from the connection locations. A trough is defined at the top of the rack, the trough configured for extending cables to other racks in a front to rear direction, the trough also defining a cable drop-off communicating with the cable storage bay for extending cables to either of the front or rear cable storage areas for further connection to the connection locations.

A telecommunications assembly includes a chassis and a plurality of modules removably mounted within the chassis. The modules include one or more fiber optic signal input locations. The modules include optical equipment for splitting the input signals into customer output signals.

A method of adapting an electronic equipment structure for cable management, the method comprising: providing a cable manager having one or more cable finger units extending from a frame, the frame including at least one spine member having an extruded construction and one or more ledges that extend along a length thereof; providing an accessory rod assembly having a base member and an accessory rod, wherein the base member includes a front-facing socket, a rear-facing hook, and a rotatable knob having a threaded end received within a threaded portion at a side of the base member, and wherein the accessory rod has an extruded construction and a generally uniform, at least partially cylindrical, cross-sectional shape; positioning the rear-facing hook of the base member against one side of the one or more ledges of the at least one spine member; rotating the rotatable knob such that the threaded end is wound within the threaded portion of the base member and bears on an opposite side of the one or more ledges of the at least one spine member, thereby clamping the at least one spine member between the rear-facing hook and the rotatable knob; and positioning a proximal end of the accessory rod within the front-facing socket of the base member such that the accessory rod extends therefrom into a cable management space.

A method of adapting an electronic equipment structure for cable management, the method comprising: providing a cable manager having one or more cable finger units extending from a frame, the frame including at least one spine member having an extruded construction and one or more ledges that extend along a length thereof; providing an accessory rod assembly having a base member and an accessory rod, wherein the base member includes a front-facing socket, a rear-facing hook, and a rotatable knob having a threaded end received within a threaded portion at a side of the base member, and wherein the accessory rod has an extruded construction and a generally uniform, at least partially cylindrical, cross-sectional shape; positioning the rear-facing hook of the base member against one side of the one or more ledges of the at least one spine member; rotating the rotatable knob such that the threaded end is wound within the threaded portion of the base member and bears on an opposite side of the one or more ledges of the at least one spine member, thereby clamping the at least one spine member between the rear-facing hook and the rotatable knob; and positioning a proximal end of the accessory rod within the front-facing socket of the base member such that the accessory rod extends therefrom into a cable management space.

A pivoting mounting bracket enables a user to select a cable entry direction for a pre-cabled chassis. The cable can be anchored to the mounting bracket prior to selecting the cable entry direction. A cable guide may protect against overbending of the cable during pivoting of the mounting bracket. Certain types of chassis can be pre-cabled with at least 576 or even at least 864 optical fibers within a 5 RU space. Certain types of chassis can include a v-shaped panel to hold front ports (e.g., optical adapters)

A pivoting mounting bracket enables a user to select a cable entry direction for a pre-cabled chassis. The cable can be anchored to the mounting bracket prior to selecting the cable entry direction. A cable guide may protect against overbending of the cable during pivoting of the mounting bracket. Certain types of chassis can be pre-cabled with at least 576 or even at least 864 optical fibers within a 5 RU space. Certain types of chassis can include a v-shaped panel to hold front ports (e.g., optical adapters)

A cable manager includes a backbone assembly and at least one side wall extending from the backbone assembly. The at least one side wall optionally includes one or more cable finger units. The backbone assembly includes a spine member having an extruded construction. The spine member includes one or more channels extending substantially an entire length thereof to facilitate easy attachment, removal and/or repositioning of a structure relative to the spine member. The cable manager optionally includes an accessory rod, a half-spool assembly, a cable finger accessory, a strap/buckle accessory, and/or a door assembly having an interference-free hinge set.

A cable manager includes a backbone assembly and at least one side wall extending from the backbone assembly. The at least one side wall optionally includes one or more cable finger units. The backbone assembly includes a spine member having an extruded construction. The spine member includes one or more channels extending substantially an entire length thereof to facilitate easy attachment, removal and/or repositioning of a structure relative to the spine member. The cable manager optionally includes an accessory rod, a half-spool assembly, a cable finger accessory, a strap/buckle accessory, and/or a door assembly having an interference-free hinge set.

An installation guide for a backshell installation guide is disclosed herein. The installation guide includes a first feature formed therein to receive at least a portion of the backshell to retain the backshell in the installation guide. The backshell guide also includes a second feature formed therein to align the installation guide with a portion of an equipment rack containing a circuit card to which the backshell is to be connected. The alignment feature positions mating connectors of the backshell in alignment with connectors of the circuit card facilitating interconnection of the mating connectors and the connectors by moving the installation guide toward the circuit card with the alignment feature engaged with the portion of the equipment rack.

A module for a networking node is disclosed. The module includes a Printed Circuit Board (“PCB”), one or more circuits mounted to the PCB and a faceplate. The faceplate includes a middle plate, a first side plate, and a second side plate. The first side plate extends from the middle plate at an obtuse angle relative to the middle plate towards a first side and back of the module. The second side plate extends from the middle plate, opposite to the first side plate, at an obtuse angle relative to the middle plate towards a second side and the back of the module.