Assembly tool and optical fiber connector assembly method

What is claimed is: 1. An assembly tool for terminating an optical fiber with an optical fiber connector, comprising: a base having a connector cradle disposed near a first end thereof to hold the optical fiber connector while the optical fiber is terminated by the assembly tool; a buffer clamp activation shuttle slidably disposed on the base, wherein the buffer clamp activation shuttle is configured to push a sleeve over a buffer clamp of the optical fiber connector, wherein the buffer clamp is configured to clamp onto a buffer portion of the optical fiber; and an activation mechanism pivotally mounted to the base, the activation mechanism comprising: an actuation lever to press a securing cap over a mechanical element disposed within the optical fiber connector; and a drive shaft coupled to the actuation lever, wherein the drive shaft is configured to rotate about an axis that is parallel to the optical fiber while the optical fiber is terminated by the assembly tool, wherein a single continuous movement of the actuation lever from a first position to a second position causes (i) the drive shaft to move the buffer clamp activation shuttle to activate the buffer clamp, and (ii) the actuation lever to press the securing cap over the mechanical element. 2. The assembly tool of claim 1 , wherein the actuation lever rotates around the axis that is parallel to the optical fiber while the optical fiber is terminated by the assembly tool. 3. The assembly tool of claim 1 , being configured to cause the buffer clamp activation shuttle to push the sleeve over the buffer clamp before the securing cap is pressed by the actuation lever. 4. The assembly tool of claim 1 , being configured to cause the actuation lever to press the securing cap before the buffer clamp activation shuttle pushes the sleeve over the buffer clamp. 5. The assembly tool of claim 1 , wherein the activation mechanism further comprises a protrusion setting cam configured to set a protrusion of a terminal end of the optical fiber, the protrusion corresponding to a distance that the terminal end of the optical fiber extends from an end face of a ferrule of the connector. 6. The assembly tool of claim 5 , wherein the protrusion setting cam is activated by the movement of the actuation lever. 7. The assembly tool of claim 5 , being configured to activate the protrusion setting cam before: (i) the sleeve is pushed over the buffer clamp and (ii) the securing cap is pressed over the mechanical element. 8. The assembly tool of claim 1 , further comprising an optical fiber clamp disposed at a second end of the base. 9. The assembly tool of claim 8 , wherein the optical fiber clamp comprises a pair of clamping plates and a clamp lever configured to open and close the pair of clamping plates. 10. The assembly tool of claim 9 , wherein the clamp lever is spring loaded in a closed position, wherein the clamp lever is depressed to open the pair of clamping plates. 11. The assembly tool of claim 8 , wherein the optical fiber clamp is removably attached to the base. 12. The assembly tool of claim 8 , wherein the optical fiber clamp is rotatably connected to the base in a direction that is about an axis that is perpendicular to the optical fiber while the optical fiber is terminated by the assembly tool. 13. The assembly tool of claim 1 , wherein the buffer clamp activation shuttle includes a funnel-shaped fiber guide configured to facilitate insertion of the optical fiber into the optical fiber connector. 14. The assembly tool of claim 1 , wherein a threaded feature extends from an outer surface of the drive shaft, and the threaded feature is configured to cooperate with a helical trench formed in a surface of a drive block of the buffer clamp activation shuttle to effectuate movement of the buffer clamp actuation shuttle upon rotation of the drive shaft. 15. A method of terminating an optical fiber with an optical fiber connector having a first end that includes a connector ferrule and a second end using the assembly tool according to claim 1 , the method comprising: inserting the optical fiber connector into the connector cradle; inserting an optical fiber into the second end of the optical fiber connector until a portion of the optical fiber outside of the optical fiber connector begins to bow; and moving the actuation lever from the first position to the second position to: (i) move the buffer clamp activation shuttle to actuate the buffer clamp, and (ii) press the securing cap over the mechanical element within the optical fiber connector. 16. The method of claim 15 , wherein moving the actuation lever from the first position to the second position moves the buffer clamp activation shuttle and presses the securing cap over the mechanical element in sequential order. 17. The method of claim 15 , wherein the securing cap is pressed over the mechanical element before the buffer clamp activation shuttle is moved. 18. The method of claim 15 , wherein the activation mechanism further comprises a protrusion setting cam configured to set a protrusion of a terminal end of the optical fiber from an end face of the connector ferrule. 19. The method of claim 18 , wherein the protrusion setting cam is activated by the movement of the actuation lever before the securing cap is pressed over the mechanical element and before the buffer clamp activation shuttle is moved. 20. The method of claim 18 , wherein the optical fiber connector includes a protrusion setting dust cap disposed over the connector ferrule. 21. The method of claim 20 , wherein activation of the protrusion setting cam pushes the protrusion setting dust cap toward the second end of the optical fiber connector so that the terminal end of the optical fiber extends from the end face of the connector ferrule by a distance in a range of between 8 microns and 42 microns. 22. The method of claim 15 , further comprising clamping the bowed optical fiber in a fiber clamp arranged at a second end of the base.