Fiber optic connector assembly and method for manufacturing the same

What is claimed is: 1 . A method for manufacturing a fiber optic connector assembly, comprising steps of: S 100 : providing a ferrule ( 100 ) having a first fiber ( 10 ) and a cable ( 400 ) having a second fiber ( 20 ); S 200 : adjusting the ferrule ( 100 ) to locate the first fiber ( 10 ) at a first predetermined orientation, and adjusting the cable ( 400 ) to locate the second fiber ( 20 ) at a second predetermined orientation; and S 300 : inserting the first fiber ( 10 ) located at the first predetermined orientation and the second fiber ( 20 ) located at the second predetermined orientation into a alignment tool ( 700 ) received in a housing ( 600 ) of a fiber optic connector, wherein the first and second predetermined orientations are set so that a distance (e) between a center (C 2 ) of a fiber core of the first fiber ( 10 ) and a center (C 4 ) of a fiber core of the second fiber ( 20 ) is equal to an absolute value of a difference between a distance (el) from a center (C 1 ) of a coat layer to the center (C 2 ) of the fiber core of the first fiber ( 10 ) and a distance (e 2 ) from a center (C 3 ) of a coat layer to the center (C 4 ) of the fiber core of the second fiber ( 20 ) when the first fiber ( 10 ) located at the first predetermined orientation and the second fiber ( 20 ) located at the second predetermined orientation are inserted into the alignment tool ( 700 ). 2 . The method according to claim 1 , wherein the alignment tool ( 700 ) is configured to an alignment tool with a V-typed alignment groove. 3 . The method according to claim 2 , wherein when the first fiber ( 10 ) located at the first predetermined orientation and the second fiber ( 20 ) located at the second predetermined orientation are inserted into the V-typed alignment groove of the alignment tool ( 700 ), the center (C 1 ) of the coat layer of the first fiber ( 10 ), the center (C 2 ) of the fiber core of the first fiber ( 10 ), the center (C 3 ) of the coat layer of the second fiber ( 20 ), and the center (C 4 ) of the fiber core of the second fiber ( 20 ) are located on a vertical line (L) passing through a vertex of the V-typed alignment groove of the alignment tool ( 700 ). 4 . The method according to claim 3 , wherein before the step 5200 , wherein the method further comprises steps of: S 010 : identifying the center (C 1 ) of the coat layer of the first fiber ( 10 ), the center (C 2 ) of the fiber core of the first fiber ( 10 ), a diameter of the coat layer of the first fiber ( 10 ), the center (C 3 ) of the coat layer of the second fiber ( 20 ), the center (C 4 ) of the fiber core of the second fiber ( 20 ), a diameter of the coat layer of the second fiber ( 20 ) by means of an identification system; and S 020 : determining whether the diameter of the coat layer of the first fiber ( 10 ) is larger than a first reference diameter, and determining whether the diameter of the coat layer of the second fiber ( 20 ) is larger than a second reference diameter. 5 . The method according to claim 4 , wherein if the diameter of the coat layer of the first fiber ( 10 ) is larger than the first reference diameter, the first predetermined orientation is set so that the center (C 2 ) of the fiber core of the first fiber ( 10 ) is located just below the center (C 1 ) of the coat layer of the first fiber ( 10 ) on the vertical line (L). 6 . The method according to claim 5 , wherein if the diameter of the coat layer of the first fiber ( 10 ) is less than the first reference diameter, the first predetermined orientation is set so that the center (C 2 ) of the fiber core of the first fiber ( 10 ) is located just above the center (C 1 ) of the coat layer of the first fiber ( 10 ) on the vertical line (L). 7 . The method according to claim 4 , wherein if the diameter of the coat layer of the second fiber ( 20 ) is larger than the second reference diameter, the second predetermined orientation is set so that the center (C 4 ) of the fiber core of the second fiber ( 20 ) is located just below the center (C 3 ) of the coat layer of the second fiber ( 20 ) on the vertical line (L). 8 . The method according to claim 7 , wherein if the diameter of the coat layer of the second fiber ( 20 ) is less than the second reference diameter, the second predetermined orientation is set so that the center (C 4 ) of the fiber core of the second fiber ( 20 ) is located just above the center (C 3 ) of the coat layer of the second fiber ( 20 ) on the vertical line (L). 9 . The method according to claim 6 , wherein after adjusting the first fiber ( 10 ) to the first predetermined orientation, fixing the ferrule ( 100 ) by means of a first clamp ( 200 ), and forming a first mark ( 101 ) for identifying the first predetermined orientation on the ferrule ( 100 ). 10 . The method according to claim 9 , wherein after forming the first mark ( 101 ), providing a hub ( 300 ) on an end of the ferrule ( 100 ) which is to be coupled with the cable ( 400 ). 11 . The method according to claim 10 , wherein the hub ( 300 ) is formed on the ferrule ( 100 ) by over-molding, or the hub ( 300 ) is assembled on the ferrule ( 100 ) by press-fitting. 12 . The method according to claim 11 , wherein after providing the hub ( 300 ) on the ferrule ( 100 ), fixing the ferrule ( 100 ) and cutting an end ( 10 a ) of the first fiber ( 10 ) which is to be coupled with the second fiber ( 20 ). 13 . The method according to claim 12 , wherein cutting the end ( 10 a ) of the first fiber ( 10 ) to form a vertical flat end surface, or cutting the end ( 10 a ) of the first fiber ( 10 ) to form a first slope end surface having a first angle with respect to the first mark ( 101 ). 14 . The method according to claim 8 , wherein after adjusting the second fiber ( 20 ) the second predetermined orientation, fixing the cable ( 400 ) by means of a second clamp ( 500 ), and forming a second mark for identifying the second predetermined orientation on the cable ( 400 ). 15 . The method according to claim 14 , wherein after forming the second mark, cutting an end ( 20 a ) of the second fiber ( 20 ) to form a vertical flat end surface, or cutting the end ( 20 a ) of the second fiber ( 20 ) to form a second slope end surface having a second angle with respect to the second mark, and the second slope end surface of the second fiber ( 20 ) is adapted to match with a first slope end surface of the first fiber ( 10 ). 16 . The method according to claim 2 , wherein after the first and second fibers ( 10 , 20 ) both are inserted into the V-typed alignment groove of the alignment tool ( 700 ), fixing the first and second fibers ( 10 , 20 ) in the V-typed alignment groove with a curable adhesive having an optical property matching with that of the first and second fibers ( 10 , 20 ). 17 . The method according to claim 16 , wherein the curable adhesive is an ultraviolet curable adhesive. 18 . A fiber optic connector assembly, comprising: a housing ( 600 ); and a ferrule ( 100 ), provided with a first fiber ( 10 ) and mounted in the housing ( 600 ) at one side of the housing ( 600 ); and a cable ( 400 ) provided with a second fiber ( 20 ) and mounted in the housing ( 600 ) at the other side of the housing ( 600 ), wherein the first fiber ( 10 ) is coupled with the second fiber ( 20 ) by an alignment tool ( 700 ) mounted in the housing ( 600 ), wherein before inserting the first and second fibers ( 10 , 20 ) into the alignment tool ( 700 ), the first fiber ( 10 ) is adjusted to a first pr