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 that including a plurality of plates, angled relative to one another, such that the faceplate includes increased surface area relative to a substantially flat faceplate, wherein at least two plates of the plurality of plates include physical ports each having track lengths to a circuit of one or more circuits, wherein one or more of the physical ports support signals at a rate of at least 100 Gbps. Each plate of the plurality of plates can be flat. Any of the plurality of plates can include physical ports. The physical ports can be pluggable modules. Each type of the physical ports can be a same type on a given plate.

An integrated equipment platform with platform base, corner post, and roof- to support modular equipment rack/cabinets and power distribution and pre-wiring. The platform is designed to be transported fully assembled including equipment cabinets/racks and could also be used to deliver additional required site materials to site in a single shipment to the site to save costs. The integrated equipment platform can be field expanded by installing additional modular cabinets or equipment and or by connecting it to other integrated equipment platform expansion model.

The present disclosure describes a telecommunications equipment mount. The telecommunications equipment mount includes a stabilization frame having a plurality of lower rails, a plurality of vertical rails, and a plurality of upper rails, the lower, vertical, and upper rails forming a top, a bottom, and at least sides of the stabilization frame to define an open interior cavity; at least one mounting member extending outwardly from, and perpendicular to, one of the sides of the stabilization frame a distance; at least one brace member coupled to the stabilization frame and configured to support the at least one mounting member; and at least one mounting pipe secured to the at least one mounting member. The stabilization frame is configured to ballast the mount on a mounting structure when telecommunications equipment is secured to the at least one mounting pipe. Telecommunications equipment mount assemblies are also described herein.

ASSEMBLY AND CONTROL SYSTEM FOR ACCUMULATORS IN WORKSTATIONS, presenting a system intended for battery control in radio-base stations rack comprising a processing center which controls a switching system, batteries, electromagnetic locks and sensors, in order to prevent non-authorized actions of such batteries inside the racks from occurring.

One embodiment is directed to a system comprising a portable device executing a mobile application; and a rack controller without a display unit, the rack controller comprising a base unit. The base unit includes a processor configured to execute software that directs the processor to interact with the mobile application to show information and receive user input associated with the rack controller and at least one of rack and patching equipment installed in one or more racks even if there is not a display unit coupled to the base unit. In additional embodiments, a rack controller is configured to determine whether each rack controller interface is connected to another rack controller as a function of a respective sense signal developed by the termination circuit associated with said rack controller interface. Other embodiments are disclosed.

Embodiments are generally directed apparatuses, methods, techniques and so forth to select two or more processing units of the plurality of processing units to process a workload, and configure a circuit switch to link the two or more processing units to process the workload, the two or more processing units each linked to each other via paths of communication and the circuit switch.

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.

A patch panel assembly mounts in a rack on a side of the rack other than the front side of the rack and other than the back side of the rack and fits within a volume of space not occupied by rack slots of the rack. In some embodiments the patch panel assembly includes brackets that articulate into out of the volume of space in the rack in which the patch panel assembly is mounted to allow access to patch cable connectors coupled in the brackets of the patch panel assembly.

A second modular mount rack frame for storing devices is described herein. One mount rack frame can comprise two modular rigid support structures in which bolts reversibly insert to laterally increase or decrease the horizontal dimension available for a computer related device. Rigid modular support structures stack, align vertically, and mechanically attach to each other to increase storage in a vertical dimension. A second modular mount rack frame can also exhibit wheels or coasters so the entire frame can smoothly and easily move across a flat supporting surface.