Optical fiber distribution frame with outside plant enclosure

What is claimed is: 1. A telecommunications apparatus comprising: a frame defining a first area and a separate second area; a plurality of modules that mount at the first area of the frame, each of the modules including a module housing containing at least one splitter, each of the modules including a plurality of fiber optic adapters positioned at fronts of the module housings, the fiber optic adapters each including inner and outer aligned openings for receiving fiber optic connectors, the inner openings being accessible from inside the module housings and the outer openings being accessible from outside the module housings, the modules also including first optical fibers that extend from the splitters and having first connectorized ends positioned within the inner openings of the fiber optic adapters; a panel positioned at the second area of the frame, the panel being pivotally connected relative to the frame by a hinge, the panel having a major surface; and second optical fibers having second connectorized ends carried with the major surface of the panel, the second connectorized ends being defined by longitudinal axes that are generally perpendicular to the major surface of the panel. 2. The telecommunications apparatus of claim 1 , further comprising one or more doors that pivot relative to the frame, the one or more doors protecting the first and second areas when in a closed position and that allow access to the first and second areas when in an open position. 3. The telecommunications apparatus of claim 1 , wherein the modules each include a single row of the fiber optic adapters. 4. The telecommunications apparatus of claim 1 , wherein the second connectorized ends are received within fiber optic adapters mounted on the panel. 5. The telecommunications apparatus of claim 4 , wherein patch cords are routed from the fiber optic adapters mounted on the panel to the fiber optic adapters of the modules. 6. The telecommunications apparatus of claim 1 , further comprising a plurality of vertically spaced-apart spool structures positioned between the first and second areas for storing excess optical fiber. 7. The telecommunications apparatus of claim 6 , wherein the optical fiber is stored in half-loops. 8. The telecommunications apparatus of claim 1 , wherein the second optical fibers correspond to at least one outside plant cable. 9. The telecommunications apparatus of claim 1 , wherein the module housings include spaced-apart and parallel major side walls and spaced-apart and parallel minor side walls that cooperate to define interior regions of the module housings, wherein the splitters are positioned within the interior regions, and wherein the major and minor side walls extend between the fronts of the module housings and rears of the module housings. 10. The telecommunications apparatus of claim 9 , wherein the modules each include a single row of the fiber optic adapters, and wherein the fiber optic adapters have cross-dimensions that extend a majority of a distance defined between the major side walls of the module housings. 11. The telecommunications apparatus of claim 1 , further comprising a plurality of vertically spaced-apart fiber management fingers positioned along one side of the first area. 12. The telecommunications apparatus of claim 1 , further comprising a plurality of vertically spaced-apart fiber management structures positioned between the first and second areas for storing excess optical fiber, the fiber management structures including curved surfaces that provide fiber bend radius protection. 13. The telecommunications apparatus of claim 12 , further comprising a plurality of vertically spaced-apart fiber management fingers positioned along one side of the first area. 14. An enclosure comprising: an outside plant housing defining an interior, the outside plant housing having at least one door for accessing the interior of the housing; a plurality of modules that mount at a first area within the interior of the outside plant housing, each of the modules including a module housing containing at least one splitter, each of the modules including a plurality of fiber optic adapters positioned at fronts of the module housings, the fiber optic adapters each including inner and outer aligned openings for receiving fiber optic connectors, the inner openings being accessible from inside the module housings and the outer openings being accessible from outside the module housings, the modules also including first optical fibers that extend from the splitters and have first connectorized ends positioned within the inner openings of the fiber optic adapters; a pivotal panel positioned at a second area within the interior of the outside plant housing, the second area being spaced from the first area, the pivotal panel having a major surface defining a reference plane; and second optical fibers having multiple parallel rows of second connectorized ends carried with the major surface of the pivotal panel, the second connectorized ends being defined by longitudinal axes that intersect the reference plane defined by the major surface of the pivotal panel. 15. The enclosure of claim 14 , wherein the modules each include a single row of the fiber optic adapters. 16. The enclosure of claim 14 , further comprising a plurality of vertically spaced-apart spool structures positioned between the first and second areas for storing excess optical fiber. 17. The enclosure of claim 16 , wherein the optical fiber is stored in half-loops. 18. The enclosure of claim 14 , wherein the module housings include spaced-apart and parallel major side walls and spaced-apart and parallel minor side walls that cooperate to define interior regions of the module housings, wherein the splitters are positioned within the interior regions, and wherein the major and minor side walls extend between the fronts of the module housings and rears of the module housings. 19. The enclosure of claim 18 , wherein the modules each include a single row of the fiber optic adapters, and wherein the fiber optic adapters have cross-dimensions that extend a majority of a distance defined between the major side walls of the module housings. 20. The enclosure of claim 14 , further comprising a plurality of vertically spaced-apart fiber management fingers positioned along one side of the first area. 21. The enclosure of claim 14 , further comprising a plurality vertically spaced-apart fiber management structures positioned between the first and second areas for storing excess optical fiber, the fiber management structures including curved surfaces that provide fiber bend radius protection. 22. The enclosure of claim 21 , further comprising a plurality of vertically spaced-apart fiber management fingers positioned along one side of the first area. 23. A method for using the enclosure of claim 14 , wherein the second optical fibers are optically connected to the first optical fibers.