Dust caps having coding system for facilitating installing a fiber optic network

What is claimed is: 1. An arrangement of fiber optic network components comprising: an indexing terminal including a multi-fiber ruggedized de-mateable connection location having a dust cap including a first indicia, a first single-fiber ruggedized de-mateable connection location and a second single-fiber ruggedized de-mateable connection location each including a dust cap having a second indicia, the multi-fiber ruggedized de-mateable connection location including a plurality of fiber positions with one of the fiber positions optically coupled to the first single fiber ruggedized de-mateable connection location; and a tether having a first end terminated by a ruggedized multi-fiber optical connector including a dust cap having the first indicia, the ruggedized multi-fiber connector having a plurality of fiber positions, one of the fiber positions being optically coupled to the second single-fiber ruggedized de-mateable connection location, others of the fiber positions of the ruggedized multi-fiber connector being optically coupled to the multi-fiber ruggedized de-mateable connection location by fiber lines, the fiber lines being indexed such that the fiber lines are connected to different fiber positions at the ruggedized multi-fiber connector as compared to at the multi-fiber ruggedized de-mateable connection location; and at least one single-fiber cable terminated by a ruggedized single fiber optical connector that is matable with the first and second single-fiber ruggedized de-matable connection locations, the ruggedized single fiber connector including a dust cap having the second indicia. 2. The arrangement of claim 1 , wherein the first indicia is a first color and the second indicia is a second color. 3. The arrangement of claim 2 , wherein the first color is green and the second color is red. 4. The arrangement of claim 1 , wherein the at least one single-fiber cable is a patch cable terminated at a first end by the ruggedized single-fiber connector and at a second end by another ruggedized single-fiber connector, both of the ruggedized single-fiber connectors including the dust caps with the second indicia. 5. The arrangement of claim 4 , wherein the ruggedized single-fiber connector at the first end of the single-fiber cable mates with one of the first and second single-fiber ruggedized de-mateable connection locations and the ruggedized single-fiber connector at the second end mates with a single-fiber ruggedized de-mateable connection location of a splitter terminal, the single-fiber ruggedized de-mateable connection location of the splitter terminal having a dust cap with the second indicia. 6. The arrangement of claim 5 , wherein the splitter terminal includes a multi-fiber ruggedized de-mateable connection location having a dust cap with a third indicia. 7. The arrangement of claim 6 , further comprising a drop terminal having a plurality of single-fiber ruggedized de-mateable connection locations and a tether terminated by a multi-fiber ruggedized connector configured to mate with the multi-fiber ruggedized de-mateable connection location of the splitter terminal, wherein the multi-fiber ruggedized connector of the tether of the drop terminal includes a dust cap having the third indicia. 8. The arrangement of claim 7 , wherein the tether of the drop terminal wraps around a spool that is coupled to the drop terminal and rotates in unison with the drop terminal as the tether is paid off from the spool. 9. The arrangement of claim 7 , wherein the single-fiber ruggedized de-mateable connection locations of the drop terminal have dust caps with fourth indicia, wherein drop cables are used to connect the single-fiber ruggedized de-mateable connection locations of the drop terminal to subscriber locations, and wherein at least first ends of the drop cables are terminated with single-fiber ruggedized connectors suitable for mating with the single-fiber ruggedized de-mateable connection locations of the drop terminal, the single-fiber ruggedized connectors of the drop cables including dust caps with the fourth indicia. 10. The arrangement of claim 9 , wherein the drop cables include second ends terminated with non-ruggedized, single fiber connectors. 11. The arrangement of claim 9 , wherein the splitter terminal includes a plurality of single-fiber ruggedized de-mateable connection locations having dust caps with the fourth indicia, and wherein the drop cables are used to connect the single-fiber ruggedized de-mateable connection locations of the splitter terminal to subscriber locations. 12. A fiber optic network comprising: first and second optical components to be optically coupled together, the first and second optical components including first and second de-mateable connection locations having dust caps with first coordinated indicia; and third and fourth optical components to be optically coupled together, the third and fourth optical components including first and second de-mateable connection locations having dust caps with second coordinated indicia; and the first, second, third and fourth components cooperating to form at least a portion of the fiber optic network, and the first coordinated indicia being different from the second coordinated indicia. 13. The fiber optic network of claim 12 , wherein the dust caps have twist-to-lock interfaces. 14. The fiber optic network of claim 13 , wherein the dust caps are environmentally sealed. 15. The fiber optic network of claim 12 , wherein the first coordinated indicia includes a first matching color, and the second coordinated indicia includes a second matching color. 16. The fiber optic network of claim 12 , wherein the first and second de-mateable connection locations are ruggedized, single-fiber de-mateable connection locations, and wherein the third and fourth de-mateable connection locations are ruggedized, multi-fiber de-mateable connection locations. 17. An arrangement of fiber optic network components comprising: an indexing terminal including: an enclosure; a first optical splitter disposed within the enclosure; a multi-fiber ruggedized de-mateable connection location including a plurality of fiber positions with one of the fiber positions optically coupled to a first input of the optical splitter; and a single-fiber ruggedized de-mateable connection location receiving an output of the first optical splitter; and a tether having a first end terminated by a ruggedized multi-fiber optical connector, the ruggedized multi-fiber connector having a plurality of fiber positions, one of the fiber positions being optically coupled to a second input of the first optical splitter, others of the fiber positions of the ruggedized multi-fiber connector being optically coupled to the multi-fiber ruggedized de-mateable connection location by fiber lines, the fiber lines being indexed such that the fiber lines are connected to different fiber positions at the ruggedized multi-fiber connector as compared to at the multi-fiber ruggedized de-mateable connection location. 18. The arrangement of claim 17 , further comprising: at least one single-fiber cable terminated by a ruggedized single fiber optical connector that is matable with the single-fiber ruggedized de-matable connection location; and a splitter terminal including a second optical splitter, the second optical splitter having an input that receives the at least one single-fiber cable, the second optical splitter outputting split optical signals. 19. The arrangement of claim 18 , wherein the second optical splitter inc