A method includes mounting a spool system at a floor level of a multiple dwelling unit. The floor level has multiple customer units. The spool system includes at least one spool of fiber optic cable. Each end of each fiber optic cable has a spliced-on connector. The method further includes paying out a length of fiber optic cable from the at least one spool to reach a customer unit of the floor level, connecting one of the connectors of the paid-out fiber optic cable to a floor splitter, and connecting the floor splitter to a distribution splitter of the multiple dwelling unit.

A fiber optic drop terminal assembly includes a housing, a spool and a fiber optic distribution cable. The housing has a first exterior surface and an oppositely disposed second exterior surface. A plurality of ruggedized adapters is mounted on the first exterior surface of the housing. The ruggedized adapters include a first port accessible from outside the housing and a second port accessible from inside the housing. The spool is engaged with the second exterior surface and includes a drum portion. The fiber distribution cable is coiled around the drum portion. The distribution cable includes a first end and an oppositely disposed second end. The second end is disposed inside the housing.

A fiber optic enclosure assembly includes a housing having an interior region and a bearing mount disposed in the interior region of the housing. A cable spool is connectedly engaged with the bearing mount such that the cable spool selectively rotates within the housing. A termination module disposed on the cable spool so that the termination module rotates in unison with the cable spool. A method of paying out a fiber optic cable from a fiber optic enclosure includes rotating a cable spool, which has a subscriber cable coiled around a spooling portion of the cable spool, about an axis of a housing of the fiber optic enclosure until a desired length of subscriber cable is paid out. A termination module is disposed on the cable spool.

A fiber optic enclosure assembly includes a housing having an interior region and a bearing mount disposed in the interior region of the housing. A cable spool is connectedly engaged with the bearing mount such that the cable spool selectively rotates within the housing. A termination module disposed on the cable spool so that the termination module rotates in unison with the cable spool. A method of paying out a fiber optic cable from a fiber optic enclosure includes rotating a cable spool, which has a subscriber cable coiled around a spooling portion of the cable spool, about an axis of a housing of the fiber optic enclosure until a desired length of subscriber cable is paid out. A termination module is disposed on the cable spool.

A fiber optic drop terminal assembly includes a housing, a spool and a fiber optic distribution cable. The housing has a first exterior surface and an oppositely disposed second exterior surface. A plurality of ruggedized adapters is mounted on the first exterior surface of the housing. The ruggedized adapters include a first port accessible from outside the housing and a second port accessible from inside the housing. The spool is engaged with the second exterior surface and includes a drum portion. The fiber distribution cable is coiled around the drum portion. The distribution cable includes a first end and an oppositely disposed second end. The second end is disposed inside the housing.

A fiber optic telecommunications device has a first fiber optic adapter, a spool, and a fiber optic cable wrapped around the spool. The fiber optic cable includes a first optical fiber. A first fiber optic connector is mounted at a first end of the first optical fiber. The first end of the first fiber optic connector is inserted within the first fiber optic adapter. The first fiber optic adapter and the spool is configured to rotate in unison about a common axis when the fiber optic cable is unwound from the spool.

Methods and apparatus are provided for installing trunk cables in a data center. A set of trunk cables, wound on a rotatable cable reel, is provided. The set of trunk cables comprises a first set of fiber modules connected to respective first ends of the set of trunk cables, wherein the first set of fiber modules are preloaded into the fiber panel removably secured to the cable reel. The cable reel is positioned a first connection point in the data center. A second set of fiber modules, connected to respective second ends of the set of trunk cables, is pulled from the cable reel to a second connection point. The fiber panel corotates with the cable reel during payout of the set of trunk cables. The fiber panel is then secured to data center equipment at the first connection point.

A fiber optic enclosure assembly includes a housing having an interior region and a bearing mount disposed in the interior region of the housing. A cable spool is connectedly engaged with the bearing mount such that the cable spool selectively rotates within the housing. A termination module disposed on the cable spool so that the termination module rotates in unison with the cable spool. A method of paying out a fiber optic cable from a fiber optic enclosure includes rotating a cable spool, which has a subscriber cable coiled around a spooling portion of the cable spool, about an axis of a housing of the fiber optic enclosure until a desired length of subscriber cable is paid out. A termination module is disposed on the cable spool.

An apparatus comprises an inline drop enclosure configured to contain a trunk cable spliced at a length into a plurality of drop cables. The inline drop enclosure comprises a housing configured to receive a trunk cable at both a first end and a second end. The housing comprises a cover and a base. A splice tray is removably positioned within the housing. A plurality of cable guides is configured to route the trunk cable and the plurality of drop cables within the drop enclosure.

A fiber optic telecommunications device includes an enclosure defining an interior. A first fiber optic adapter is provided at the enclosure. A spool is provided at an exterior of the enclosure. A fiber optic cable, which includes a first optical fiber, is wrapped around the spool. A first fiber optic connector is mounted at a first end of the first optical fiber. The first end of the first optical fiber is positioned within the interior of the enclosure. The first fiber optic connector is inserted within the first fiber optic adapter. The enclosure and the spool are configured to rotate in unison about a common axis when the fiber optic cable is unwound from the spool.