Optical fiber connector assembly

The invention claimed is: 1. An optical fiber connector assembly for a fiber optic cable comprising an optical fiber, having an end portion terminated with a ferrule, and rod members, the optical fiber connector assembly extending lengthwise along a longitudinal axis and comprising: a ferrule holder configured to hold the end portion of the optical fiber, the ferrule and the rod members, wherein the ferrule holder comprises: a proximal portion comprising two opposite arms forming a seat for the end portion of the fiber optic cable, and a distal portion comprising a sleeve portion configured to hold the end portion of the optical fiber, the ferrule, and the rod members; a connector having an internal passageway for housing the ferrule holder; and a locking member extending lengthwise and having an internal passageway for the end portion of the fiber optic cable, wherein the locking member comprises a distal portion configured to mate with said two opposite arms so as to provide mechanical coupling to the proximal portion of the ferrule holder, wherein the connector is configured to be directly mechanically coupled to the ferrule holder, and wherein the locking member is configured to be directly mechanically coupled both to the ferrule holder and to the connector. 2. The optical fiber connector assembly according to claim 1 , wherein the mechanical coupling between the connector and the ferrule holder, and the locking member and the connector, is made by means of a mechanical coupling configured to prevent relative rotation about said longitudinal axis and relative axial movement along said longitudinal axis. 3. The optical fiber connector assembly according to claim 2 , wherein said mechanical coupling is a snap coupling. 4. The optical fiber connector assembly according to claim 1 , wherein the locking member is configured to be mechanically coupled to the ferrule holder by means of a mechanical coupling configured to prevent relative rotation about said longitudinal axis. 5. The optical fiber connector assembly according to claim 1 , wherein the distal portion of the locking member comprises two recesses extending lengthwise, configured to mate with said opposite arms of the ferrule holder. 6. The optical fiber connector assembly according to claim 1 , wherein the two opposite arms of the proximal portion of the ferrule holder comprise respective coupling members configured to engage corresponding coupling members in a proximal portion of a body of the connector, so as to provide said mechanical coupling between the proximal portion of the body and the proximal portion of the ferrule holder. 7. The optical fiber connector assembly according to claim 1 , wherein the ferrule holder comprises a medial portion between the sleeve portion and the proximal portion. 8. The optical fiber connector assembly according to claim 7 , wherein the two opposite arms forming said seat extend lengthwise and project backward from the medial portion of the ferrule holder. 9. The optical fiber connector assembly according to claim 7 , wherein the medial portion of the ferrule holder provides an abutment surface for the front face of the end portion of the fiber optic cable. 10. The optical fiber connector assembly according to claim 7 , wherein the medial portion of the ferrule holder comprises a hole in communication with an internal passageway of the sleeve portion for receiving the end portion of the optical fiber terminated with the ferrule. 11. The optical fiber connector assembly according to claim 1 , wherein the sleeve portion of the ferrule holder comprises grooves on the lateral external surface thereof, said grooves extending lengthwise between proximal and distal ends of the sleeve portion and being configured to house said rod members. 12. The optical fiber connector assembly according to claim 11 , wherein the medial portion comprises holes in communication with said grooves for receiving said rod members. 13. The optical fiber connector assembly according to claim 1 , comprising a first crimping element configured to be disposed about the ferrule holder to grip the rod members. 14. The optical fiber connector assembly according to claim 1 , comprising a second crimping element adapted to crimp a proximal portion of the locking member about the end portion of the fiber optic cable. 15. The optical fiber connector assembly according to claim 14 , wherein a proximal portion of the locking member has on a lateral surface thereof at least one aperture and the second crimping element is adapted to crimp the locking member about the end portion of the fiber optic cable at said at least one aperture. 16. A pre-connectorized fiber optic cable comprising a fiber optic cable and an optical fiber connector assembly mounted upon an end portion of the fiber optic cable, the fiber optic cable comprising a cable jacket accommodating an optical fiber, having an end portion terminated with a ferrule, and rod members, the optical fiber connector assembly comprising: a ferrule holder holding the end portion of the optical fiber, the ferrule and the rod members, wherein the ferrule holder comprises: a proximal portion comprising two opposite arms forming a seat for the end portion of the fiber optic cable; and a distal portion comprising a sleeve portion configured to hold the end portion of the optical fiber, the ferrule, and the rod members; a connector accommodating the ferrule holder and configured to mate with a corresponding receptacle; and a locking member extending lengthwise and having an internal passageway accommodating the end portion of the fiber optic cable, wherein the locking member comprises a distal portion configured to mate with said two opposite arms so as to provide mechanical coupling to the proximal portion of the ferrule holder, wherein each element among the ferrule holder, a body of the connector, and the locking member is directly mechanically coupled to both of the other two elements.