Hybrid connection system using factory connectorized pigtail

What is claimed is: 1. A hybrid optical and electrical connection system comprising; a connectorized pigtail including: a) a stub cable including a jacket containing at least one optical fiber and at least two electrical conductors, the stub cable having opposite first and second ends; and b) a hybrid optical and electrical connector that is factory terminated at the first end of the stub cable; and a closure that mounts at the second end of the stub cable for enclosing optical and electrical connections between the second end of the stub cable and a field cable; wherein the closure is a field installable closure having first and second housing pieces configured to be field installed over the optical and electrical connections after the optical and electrical connections have been made by wrapping the first and second housing pieces around the optical and electrical connections. 2. The hybrid optical and electrical connection system of claim 1 , wherein the connectorized pigtail has a length less than 50 centimeters. 3. The hybrid optical and electrical connection system of claim 1 , wherein the connectorized pigtail has a length less than 40 centimeters. 4. The hybrid optical and electrical connection system of claim 1 , wherein the connectorized pigtail has a length less than 30 centimeters. 5. The hybrid optical and electrical connection system of claim 1 , wherein the closure has a length less than 10 centimeters. 6. The hybrid optical and electrical connection system of claim 1 , wherein the closure includes a hinged cover. 7. The hybrid optical and electrical connection system of claim 1 , wherein the closure includes first and second housing pieces that cooperate to define an interior region for housing optical splices and electrical connections. 8. The hybrid optical and electrical connection system of claim 7 , wherein first and second housing pieces are connected by a hinge. 9. The hybrid optical and electrical connection system of claim 1 , wherein the closure is environmentally sealed. 10. The hybrid optical and electrical connection system of claim 9 , wherein the closure is environmentally sealed by a gel. 11. The hybrid optical and electrical connection system of claim 1 , wherein the stub cable includes at least two optical fibers, wherein the hybrid optical and electrical connector includes a multi-fiber ferrule that supports end portions of the optical fibers, and wherein the hybrid optical and electrical connector includes at least two electrical contacts electrically connected to the electrical conductors of the stub cable. 12. The hybrid optical and electrical connection system of claim 11 , wherein the electrical contacts include pins or sockets. 13. The hybrid optical and electrical connection system of claim 1 , wherein the stub cable includes at least two optical fibers, wherein the hybrid optical and electrical connector includes at least two ferrules that support end portions of the optical fibers, and wherein the hybrid optical and electrical connector includes at least two electrical contacts electrically connected to the electrical conductors of the stub cable. 14. The hybrid optical and electrical connection system of claim 13 , wherein the electrical contacts include pins or sockets. 15. The hybrid optical and electrical connection system of claim 1 , further comprising a tapered, flexible boot positioned at a juncture between the closure and the field cable. 16. The hybrid optical and electrical connection system of claim 1 , wherein the optical fiber of the stub cable is connected to an optical fiber of the field cable by a splice within the closure. 17. The hybrid optical and electrical connection system of claim 16 , wherein the splice is a mechanical splice or a fusion splice. 18. The hybrid optical and electrical connection system of claim 1 , further comprising electrical terminals within the closure for electrically connecting the electrical conductors of the stub cable to electrical conductors of the field cable. 19. The hybrid optical and electrical connection system of claim 1 , wherein the electrical terminals include insulation displacement connector terminals. 20. The hybrid optical and electrical connection system of claim 1 , wherein the electrical conductors of the stub cable are coupled to electrical conductors of the field cable at butt splices within the closure. 21. The hybrid optical and electrical connection system of claim 1 , wherein the hybrid optical and electrical connector includes a twist-to-lock fastening element for coupling the hybrid optical and electrical connector to a corresponding connector or adapter. 22. The hybrid optical and electrical connection system of claim 21 , wherein the twist-to-lock fastening element includes an internally threaded sleeve, an externally threaded nut or a bayonet-style coupling element. 23. The hybrid optical and electrical connection system of claim 1 , wherein the hybrid optical and electrical connector is environmentally sealed when coupled to a corresponding connector or adapter. 24. The hybrid optical and electrical connection system of claim 1 , wherein the closure accommodates only a single one of the stub cable. 25. The hybrid optical and electrical connection system of claim 1 , wherein the field cable includes at least one optical fiber and at least two electrical conductors, wherein all of the optical fibers of the field cable are optically spliced to corresponding ones of the optical fibers of the stub cable within the closure and wherein all of the electrical conductors of the field cable are electrically connected to corresponding ones of the electrical conductors of the stub cable within the closure. 26. The hybrid optical and electrical connection system of claim 1 , wherein a one-to-one ratio is provided at the closure for the optical and electrical connections between the field cable and the stub cable. 27. A hybrid optical and electrical connection system comprising; a connectorized pigtail including: a) a stub cable including a jacket containing at least one optical fiber and at least two electrical conductors, the stub cable having opposite first and second ends; and b) a hybrid optical and electrical connector that is factory terminated at the first end of the stub cable; and a closure that mounts at the second end of the stub cable for enclosing optical and electrical connections between the second end of the stub cable and a field cable; wherein the field cable includes at least one optical fiber and at least two electrical conductors, wherein all of the optical fibers of the field cable are optically spliced to corresponding ones of the optical fibers of the stub cable within the closure and wherein all of the electrical conductors of the field cable are electrically connected to corresponding ones of the electrical conductors of the stub cable within the closure.