Modular hybrid closure

What is claimed is: 1. A telecommunications tray assembly comprising: a tray including: a first storage location for receiving at least one splice module, the at least one splice module being connectable to a feeder cable; a second storage location for receiving a plurality of fan out modules and/or a plurality of splitter modules; and a third storage location for receiving at least one drop splice module, the at least one drop splice module being connectable to a distribution cable; wherein the first storage location is adjacent a first side of the second storage location and the third storage location is adjacent a second side of the second storage location. 2. A telecommunications enclosure comprising: a) the telecommunications tray assembly of claim 1 ; b) an environmental enclosure housing the tray, the environmental enclosure meeting IP68 sealing standards. 3. The telecommunications enclosure of claim 2 , wherein the enclosure includes a plurality of fan out modules each having a housing, wherein the housings are connected to one another. 4. The telecommunications enclosure of claim 2 , wherein the enclosure includes a plurality of drop splice modules each being hingedly connected to the tray. 5. The telecommunications enclosure of claim 4 , wherein the drop splice modules are arranged in slots on the tray. 6. The telecommunications enclosure of claim 2 , wherein the enclosure includes a plurality of fan out modules, wherein the plurality of fan out modules are stacked on top of one another. 7. The telecommunications tray enclosure of claim 2 , wherein the enclosure includes a plurality of splitter modules, wherein the plurality of splitter modules are stacked on top of one another. 8. The telecommunications enclosure of claim 7 , wherein the splitter modules are at least one of a 1:4, 1:8, and 1:16 splitter. 9. The telecommunications enclosure of claim 2 , further comprising a coaxial splitter attached to the enclosure, wherein the coaxial splitter is configured to split a single coaxial signal into a plurality of output split signals. 10. The telecommunications enclosure of claim 2 , wherein the enclosure includes mounting features that are configured to mount the enclosure to at least one of an outdoor pole, an interior wall surface, an exterior wall surface, a pedestal mount, an underground surface, and a cabinet. 11. The telecommunications tray assembly of claim 1 , wherein the tray includes a plurality of splitter modules each having a housing, wherein the housings are connected to one another. 12. The telecommunications tray assembly of claim 1 , further comprising a seal positioned between a first half and a second half of an outer shell. 13. The telecommunications tray assembly of claim 1 , wherein the tray includes a fourth storage location for receiving and storing excess cabling. 14. The telecommunications tray assembly of claim 1 , wherein the tray includes at least one splice module spliced to a feeder cable, and wherein an at least one splice module of a first enclosure has an output connected to an at least one fan out device of a second enclosure. 15. A telecommunications tray assembly comprising: a tray including: a first storage location for receiving at least one splice module, the at least one splice module being connectable to a feeder cable; a second storage location for receiving a plurality of fan out modules and/or a plurality of splitter modules; and a third storage location for receiving at least one drop splice module, the at least one drop splice module being connectable to a distribution cable; and a seal block having passages therethrough, the passages being sized and shaped for feeder cables and distribution cables. 16. The telecommunications enclosure assembly of claim 15 , wherein the seal block is a gel seal. 17. A telecommunications tray assembly comprising: a tray including: a first storage location for receiving at least one splice module, the at least one splice module being connectable to a feeder cable; a second storage location for receiving a plurality of fan out modules and/or a plurality of splitter modules; and a third storage location for receiving at least one drop splice module, the at least one drop splice module being connectable to a distribution cable; wherein the tray includes at least one fan out module, wherein the at least one splice module is spliced to the at least one fan out module, and wherein the at least one drop splice module connects to the at least one fan out module to provide at least one point-to-point connection. 18. The telecommunications tray assembly of claim 17 , wherein the tray includes at least one splitter module and at least one fan out device, the at least one splice module being spliced to the at least one fan out device and the at least splitter module being connected to an output of the at least one fan out device, the at least one drop splice module connecting to the at least one fan out device output of the at least one splitter module to provide at least one split connection.