Ultrasonic anvil having low transmissibility

What is claimed: 1. An anvil system for use in an ultrasonic bonder, the anvil system comprising: an anvil assembly including an anvil bar having an axial direction, two anvil bar longitudinal ends, and an anvil aperture in at least one anvil bar longitudinal end, the anvil aperture having an anvil aperture inner surface, a shaft separate from the anvil bar and partially disposed in the anvil aperture, the shaft having a circumferential surface and extending outwardly beyond the anvil bar longitudinal end, and a first elastomeric shaft O-ring disposed on the shaft between the shaft circumferential surface and the anvil aperture inner surface; a first mounting bracket with a first mounting bracket hole therein, the mounting bracket hole having a hole surface; a first bushing disposed in the first mounting bracket hole and sized to accommodate an end of the shaft, the first bushing having a bushing inner surface and a bushing outer surface; and a second elastomeric shaft O-ring disposed on the shaft between the shaft circumferential surface and the bushing inner surface. 2. The anvil system of claim 1 , further comprising an elastomeric bushing O-ring disposed on the first bushing between the bushing outer surface and the hole surface. 3. The anvil system of claim 1 , wherein the anvil aperture extends from one anvil bar longitudinal end to the other anvil bar longitudinal end, and wherein the shaft extends through the anvil aperture and beyond both anvil bar longitudinal ends. 4. The anvil system of claim 1 , further comprising a second mounting bracket disposed at the anvil bar longitudinal end opposite the first mounting bracket, the second mounting bracket having a second mounting bracket hole therein. 5. The anvil system of claim 4 , further comprising a second bushing disposed in the second mounting bracket hole and sized to accommodate an end of the shaft, wherein the second bushing has a second bushing inner surface and a second bushing outer surface. 6. The anvil system of claim 5 , further comprising a third elastomeric shaft O-ring disposed on the shaft between the shaft circumferential surface and the second bushing inner surface. 7. The anvil system of claim 1 , further comprising an elastomeric washer disposed around the shaft between the anvil bar longitudinal end and the first mounting bracket. 8. The anvil system of claim 1 , further comprising an elastomeric ball disposed within the first bushing adjacent an end of the shaft. 9. The anvil system of claim 1 , wherein the anvil bar is configured to be movable in a radial direction relative to the shaft. 10. The anvil system if claim 1 , wherein the anvil bar is configured to pivot rotationally relative to the mounting bracket. 11. An anvil system for use in an ultrasonic bonder, the anvil system comprising: an anvil assembly including an anvil bar having an axial direction, two anvil bar longitudinal ends, and an anvil aperture therethrough from one anvil bar longitudinal end to the other anvil bar longitudinal end, the anvil aperture having an anvil aperture inner surface, a shaft separate from the anvil bar and partially disposed within the anvil aperture, the shaft having a shaft circumferential surface and extending outwardly beyond both anvil bar longitudinal ends, and a shaft isolation system disposed between the shaft circumferential surface and the anvil aperture inner surface; a first mounting bracket with a first mounting bracket hole therein, the first mounting bracket hole having a hole surface; a first bushing disposed in the first mounting bracket hole and sized to accommodate an end of the shaft, the first bushing having a bushing inner surface and a bushing outer surface; and a first mount isolation system disposed between the shaft circumferential surface and the bushing inner surface. 12. The anvil system of claim 11 , further comprising a second mount isolation system disposed on the first bushing between the bushing outer surface and the hole surface of the first mounting bracket hole. 13. The anvil system of claim 11 , wherein the shaft isolation system includes at least one elastomeric O-ring disposed on the shaft. 14. The anvil system of claim 11 , wherein the first mount isolation system includes at least one elastomeric O-ring disposed on the shaft. 15. The anvil system of claim 11 , further comprising an elastomeric washer disposed around the shaft between the anvil bar longitudinal end and the first mounting bracket. 16. A method for reducing the natural frequency of an anvil bar in an ultrasonic bonder comprising: producing an anvil bar-shaft combination, the anvil bar having an axial direction, two anvil bar longitudinal ends, and an anvil aperture therethrough from one anvil bar longitudinal end to the other anvil bar longitudinal end, the anvil aperture having an anvil aperture inner surface, and the shaft being separate from the anvil bar and partially disposed within the anvil aperture, the shaft having a shaft circumferential surface and extending outwardly beyond both anvil bar longitudinal ends; disposing a shaft isolation system between the shaft circumferential surface and the anvil aperture inner surface; mounting the anvil bar-shaft combination in a first mounting bracket having a first mounting bracket hole using a first bushing disposed in the first mounting bracket hole, the first mounting bracket hole having a hole surface and the first bushing having a bushing inner surface and a bushing outer surface; and disposing a first mount isolation system between the bushing inner surface and the shaft circumferential surface. 17. The method of claim 16 , further comprising disposing a second mount isolation system between the bushing outer surface and the hole surface. 18. The method of claim 17 , wherein the second mount isolation system includes at least one elastomeric O-ring disposed on the bushing outer surface. 19. The method of claim 16 , wherein the shaft isolation system and the first mount isolation system each include at least one elastomeric O-ring disposed on the shaft. 20. The method of claim 16 , wherein the ultrasonic bonder has an operating frequency, and wherein the natural frequency of the anvil bar is less than or equal to 10 percent of the operating frequency.