This disclosure is related to a fiber optic distribution system including a telecommunications enclosure. In one aspect, the telecommunications enclosure can include a main body and a cover that together define an interior cavity. A first tray and a second tray can be mounted within the interior cavity. The first tray can be configured to hold a fiber optic splitter and to include cable management features. The second tray can be configured with a termination feature for connecting cables extending from the splitter to cables that can be distributed to individual locations remote from the enclosure, such as individual dwelling units.

A fiber distribution device includes a swing frame chassis pivotally mounted to a support structure. At least a first optical splitter module is mounted to the swing frame chassis. Pigtails having connectorized ends are carried by the swing frame chassis and have portions that are routed generally vertically on the swing frame chassis. An optical termination field includes fiber optic adapters carried by the swing frame chassis. The fiber optic adapters are configured to receive the connectorized ends of the pigtails.

A telecommunications cabinet includes a cabinet housing; a fiber optic splitter; a plurality of spools disposed on a cable management surface; a panel oriented at a fixed angle relative to the access opening so that the panel extends laterally and rearwardly between the access opening and the cable management surface; and a plurality of adapters disposed on the panel.

A telecommunications assembly including a housing and a plurality of modules mounted within the housing. The modules includes a rear face in which is mounted at least one fiber optic connector. Within an interior of the housing are positioned at least one fiber optic adapters. Inserting the module through a front opening of the housing at a mounting location positions the connector of the module for insertion into and mating with the adapter of the housing. The adapters within the interior of the housing are mounted to a removable holder. A method of mounting a telecommunications module within a chassis.

Disclosed is technology for controlling a bias using an integrated circuit (IC) instead of using a pilot tone. A bias control apparatus includes a photodetector configured to convert at least a portion of data included in an output from an optical modulator to an electrical signal; a power detector configured to convert a root mean square (RMS) value of an amplitude of the converted data to an analog voltage; a comparator configured to compare the output voltage and a pre-stored track hold value; and a bias controller configured to control a bias voltage to be within a preset range from an optimal voltage based on the comparison result.

A fiber port management system that can be connected between network devices and network appliances is provided. The fiber port management system includes a housing, one or more hydra cables within the housing, one or more indicators and a controller. The housing has a front panel with a plurality of low density fiber connectors and a rear panel with a plurality of high density fiber connectors. The hydra cable is positioned within the housing and connects one of the plurality of high density fiber connectors to two or more of the plurality of low density fiber connectors. The one or more indicators are associated with each of the plurality of low density fiber connectors and each of the plurality of high density fiber connectors. The controller is located within the housing and is used to control the operation of the indicators.

The present invention relates to a telecommunications termination panel with a tray pivotably mounted within the front opening of a housing. The tray pivots about a hinge located adjacent one of the sides of the housing and includes a raised floor. The raised floor of the tray cooperates with the side adjacent the hinge and a bottom of the housing to define a cable path from a rear cable access port to an opening on the tray adjacent the hinge. The tray includes a plurality of connection locations and cable management structures to direct a telecommunications cable from the cable access port to a rear of the connection locations without violating bend radius rules. The tray may also include a temporary cable holder to assist in pulling cables through the rear opening into the housing. The present invention further relates to a telecommunications equipment rack with a termination panel with such a pivoting tray mounted to the rack.

A fiber optic patching system may include one or more cassettes which may be removably coupled a chassis. A cassette may include a channel with a lock tab disposed within the channel. Each cassette may be adapted to receive and secure any type of data cable and cable connector. A chassis may include an alignment slot and a key which may extend away from the alignment slot, and the key may have a key aperture. The cassette may be coupled within the alignment slot by inserting the key into the channel so that the lock tab and key aperture are engaged together. Preferably, the portion of the key having the key aperture may be movable away from the portion of the cassette having the lock tab to disengage the lock tab and key aperture so that the cassette is able to be uncoupled from the alignment slot.

A fiber port management system that can be connected between network devices and network appliances is provided. The fiber port management system includes a housing, one or more hydra cables within the housing, one or more indicators and a controller. The housing has a front panel with a plurality of low density fiber connectors and a rear panel with a plurality of high density fiber connectors. The hydra cable is positioned within the housing and connects one of the plurality of high density fiber connectors to two or more of the plurality of low density fiber connectors. The one or more indicators are associated with each of the plurality of low density fiber connectors and each of the plurality of high density fiber connectors. The controller is located within the housing and is used to control the operation of the indicators.

A telecommunications cabinet includes a cabinet housing; a fiber optic splitter; a plurality of spools disposed on a cable management surface; a panel oriented at a fixed angle relative to the access opening so that the panel extends laterally and rearwardly between the access opening and the cable management surface; and a plurality of adapters disposed on the panel.