Vibration isolation for compactor

The invention claimed is: 1. A vibratory compactor, comprising: a drum; a frame supporting the drum; an eccentric shaft configured to be rotated; a primary eccentric weight attached to the eccentric shaft inside the drum; a vibration motor configured to rotate the eccentric shaft, at least one active isolation eccentric weight located outside the drum that generates a phase of a vibration that is substantially opposite to that of a vibration generated by the primary eccentric weight as the primary eccentric weight is rotated inside the drum. 2. The vibratory compactor according to claim 1 , wherein the at least one active isolation eccentric weight is attached directly to frame. 3. The vibratory compactor according to claim 1 , wherein the at least one active isolation eccentric weight is located within frame. 4. The vibratory compactor according to claim 1 , wherein the at least one active isolation eccentric weight is operably attached to the vibration motor. 5. The vibratory compactor according to claim 1 , wherein the at least one active isolation eccentric weight is driven by a flexible shaft. 6. The vibratory compactor according to claim 1 , wherein the at least one active isolation eccentric weight is driven by a second vibration motor. 7. The vibratory compactor according to claim 1 , further comprising at least one active isolation mass disposed between the frame and the drum. 8. The vibratory compactor according to claim 7 , wherein the at least one active isolation eccentric weight is rotatable within the at least one active isolation mass. 9. The vibratory compactor according to claim 8 , wherein the at least one active isolation mass comprises two active isolation masses, one adjacent to each end of the drum, and the at least one active isolation eccentric weight comprises two active isolation eccentric weights, one inside of each active isolation mass. 10. The vibratory compactor according to claim 8 , wherein the at least one active isolation eccentric weight is attached to the eccentric shaft. 11. The vibratory compactor according to claim 1 , further comprises at least one resilient isolator disposed between the drum and the frame. 12. The vibratory compactor according to claim 1 , wherein a center of rotation of the primary eccentric weight is substantially coaxial with a center of rotation of the at least one active isolation eccentric weight. 13. The vibratory compactor according to claim 1 , wherein an eccentric force generated by the primary eccentric weight is greater than twice an eccentric force generated by one active isolation eccentric weight. 14. A method of reducing vibration perceived by a frame of a vibratory compactor as the result of a primary eccentric weight being rotating within a drum, the method comprising: reducing an amplitude of a compaction vibration perceived by the frame by positioning a plurality of resilient isolators between the drum and the frame; and rotating, at a location outside of the drum, at least one active isolation eccentric weight so that a phase of a vibration generated by the at least one active isolation eccentric weight is substantially opposite to that of a vibration generated by the primary eccentric weight. 15. The method of claim 14 , wherein the primary eccentric weight and the at least one active isolation eccentric weight are each attached to an eccentric shaft, and rotating the at least one active isolation eccentric weight comprises rotating the eccentric shaft with a vibration motor.