A horizontal cable manager that includes a body with a back and a plurality of fingers extending from the back of the body. The distal end of at least one finger includes a hinge pin holder. The horizontal cable manager also includes a door hingedly attached to the fingers extending from the body. The door has a front, a back, a top edge, a bottom edge, and at least one hinge pin receptacle positioned along the top edge or the bottom edge of the door. The hinge pin receptacle houses a magnet to enable the door to attach to the hinge pin holder of the at least one finger to hold the door in a closed position.

A method of mounting a telecommunications frame (114) to a floor surface includes fixing a floor mounting template (6000) to the floor surface, wherein the template (6000) defines a front end (6020) and a rear end (6022) and first and second sides (6006, 6008) extending therebetween, sliding the telecommunications frame (114) over the floor mounting template (6000) in a direction extending from the front end (6020) to the rear end (6022) of the template, wherein the template (6000) is positioned within a gap (5999) defined by spaced-apart walls (5997) of the telecommunications frame (114), and securing the first side (6006) of the floor mounting template (6000) to a first portion of the telecommunications frame (114) and securing the second side (6008) of the floor mounting template (6000) to a second portion of the telecommunications frame (114).

A communication device is configured to receive data at a first data rate and to transmit the data at a second data rate that is greater than the first data rate. The communication device includes a plurality of communication pipelines and a multiplexer. Each communication pipeline is configured to receive a respective input data stream including first data blocks having a first format compatible for transmission at the first data rate, convert the first data blocks into second data blocks having a second format compatible for transmission at the second data rate, and provide an indication when one of the input data streams that is expected to be received is not received. The multiplexer is configured to receive the second data blocks from the communication pipelines and to generate an output data stream for transmission at the second data rate when one of the input data streams is not received.

The present invention is direct to data communication. In a specific embodiment, multiple independent data streams, which are at a first data rate, are transcoded by separate communication pipelines into data blocks. The data blocks, associated with these separate and independent data streams, are multiplexed with alignment markers to generate an output data stream. The output data stream is transmitted at a second data rate, which is higher than the first data rate.

The present invention is direct to data communication. In a specific embodiment, multiple independent data streams, which are at a first data rate, are transcoded by separate communication pipelines into data blocks. The data blocks, associated with these separate and independent data streams, are multiplexed with alignment markers to generate an output data stream. The output data stream is transmitted at a second data rate, which is higher than the first data rate.

A horizontal cable manager connected to a network rack that routes cables in and around the network rack. The horizontal cable manager includes a body with a back and a plurality of fingers extending from the back of the body. The distal end of at least one finger includes a hinge pin holder. The horizontal cable manager also includes a door hingedly attached to the fingers extending from the body. The door has a front, a back, a top edge, a bottom edge, and at least one hinge pin receptacle positioned along the top edge or the bottom edge of the door. The hinge pin receptacle houses a magnet to enable the door to attach to the hinge pin holder of the at least one finger to hold the door in a closed position

A cable conduit for distribution panels in network technology is provided comprising a first section for fastening and a second section for guiding cables, in which the first section is embodied such that the cable conduit, seen in the plug-in direction(s) of the distribution panel, can be arranged in front of a distribution panel such that the first section is arranged at a first part of the cable conduit and the second section is arranged at least partially at a second part of the cable conduit, which can be separated from the first part of the cable conduit and after the separation can be reconnected to the first part of the cable conduit, as well as a distribution panel comprising such a cable conduit.

A rack and patch panel arrangement includes a rack having at least two mounting rails. The rack has a height width and depth. A patch panel is supported on a frame connected to the mounting rails. The patch panel, when mounted on the frame extends horizontally into the depth of the rack.

Frame injection apparatus for injecting frames from a host device into a switched Ethernet network comprises a frame memory operable to receive and store one host frame at a time and to inject the frame onto the Ethernet switched network between network frames and to buffer network frames received during the time that the host frame is being injected onto the network.

A method of mounting a telecommunications frame (114) to a floor surface includes fixing a floor mounting template (6000) to the floor surface, wherein the template (6000) defines a front end (6020) and a rear end (6022) and first and second sides (6006, 6008) extending therebetween, sliding the telecommunications frame (114) over the floor mounting template (6000) in a direction extending from the front end (6020) to the rear end (6022) of the template, wherein the template (6000) is positioned within a gap (5999) defined by spaced-apart walls (5997) of the telecommunications frame (114), and securing the first side (6006) of the floor mounting template (6000) to a first portion of the telecommunications frame (114) and securing the second side (6008) of the floor mounting template (6000) to a second portion of the telecommunications frame (114).