Cylindrical Optical Ferrule Alignment Apparatus

1 . A device comprising: a ferrule alignment sleeve, wherein said sleeve extends in a longitudinal direction and forms an inner, generally tubular area; a first rim formed around a first opening at one end of said generally tubular area to receive an end of a first ferrule; and a first tab adjacent said first rim and projecting away from said first rim and said generally tubular area to interact with a feature associated with the first ferrule to angularly align the first ferrule within said generally tubular area. 2 . The device of claim 1 , wherein said sleeve is split along its longitudinal line of extension. 3 . The device of claim 1 , wherein an outer surface of said sleeve presents a generally cylindrical surface. 4 . The device of claim 1 , further comprising: a second rim formed around a second opening at an opposite end of said generally tubular area to receive an end of a second ferrule; and a second tab adjacent said second rim and projecting away from said second rim and said tubular area to interact with a feature associated with the second ferrule to align the second ferrule within said generally tubular area, and wherein said sleeve is split along its longitudinal line of extension. 5 . The device of claim 1 , wherein said first tab has a generally radiused or triangular tip at its distal end. 6 . The device of claim 1 , wherein a mid-section of said sleeve includes a recessed area extending into an outer surface of said sleeve toward said generally tubular inner area. 7 . The device of claim 6 , further comprising: a housing having a wall; a through hole formed in said wall of said housing; and at least one resilient latch projecting from said wall toward said through hole, wherein said at least one resilient latch snaps into said recessed area of said sleeve as said sleeve passes through said through hole and acts to attach said sleeve within said housing. 8 . The device of claim 7 , wherein said at least one resilient latch includes first and second resilient latches projecting toward different perimeter portions of said through hole, and wherein said recessed area includes first and second flat surfaces, which are engaged by said first and second resilient latches, respectively, when said sleeve is attached within said housing. 9 . The device of claim 8 , wherein said first and second resilient latches are first and second portions of said wall defined between void channels formed in said wall. 10 . The device of claim 7 , further comprising: a second rim formed around a second opening at an opposite end of said generally tubular area to receive an end of a second ferrule; a second tab adjacent said second rim and projecting away from said second rim and said tubular area to interact with a feature associated with the second ferrule to align the second ferrule within said generally tubular area, and wherein said sleeve is split along its longitudinal line of extension, and wherein said housing is an adapter housing and includes a first port on a first side of said wall and a second port on a second side of said wall; a first fiber optic connector seated into said first port, said first fiber optic connector including a first ferrule holder holding said first ferrule and a first optical fiber residing within a central bore of said first ferrule; and a second fiber optic connector seated into said second port, said second fiber optic connector including a second ferrule holder holding said second ferrule and a second optical fiber residing within a central bore of said second ferrule; wherein said first tab of said sleeve extends into a first slot formed in said first ferrule holder when said first fiber optic connector is seated into said first port, and said second tab of said sleeve extends into a second slot formed in said second ferrule holder when said second fiber optic connector is seated into said second port, so as to align said first and second slots of said first and second ferrule holders. 11 . The device of claim 10 , wherein said first optical fiber is a first multi-core optical fiber, and said second optical fiber is a second multi-core optical fiber, and wherein when said first and second slots of said first and second ferrule holders are aligned, cores of said first and second multi-core optical fibers are aligned. 12 . A device comprising: a ferrule alignment sleeve, wherein said sleeve extends in a longitudinal direction and forms an inner, generally tubular area; a first rim formed around a first opening at one end of said generally tubular area to receive an end of a first ferrule; a first tab adjacent said first rim and projecting away from said generally tubular area; a housing having a first part with a first wall; a first through hole formed in said first wall of said first part; and a first cylindrical boss having a proximate end attached to said first wall and encircling said first hole, said first cylindrical boss extending away from said first wall and terminating at a distal end with a first turned edge protruding toward a center of said first cylindrical boss, with a first gap formed in said first turned edge; wherein said sleeve resides inside said first boss, wherein said first rim of said sleeve cannot pass by said first turned edge of said first boss, so as to attach said sleeve within said housing, and wherein said first tab of said sleeve passes through said first gap in said first turned edge. 13 . The device of claim 12 , wherein said housing includes a first port on a side of said first wall possessing said first boss, and further comprising: a first fiber optic connector seated into said first port, said first fiber optic connector including a first ferrule holder holding said first ferrule and a first optical fiber residing within a central bore of said first ferrule; wherein said first tab of said sleeve extends into a first slot formed in said first ferrule holder when said first fiber optic connector is seated into said first port. 14 . The device of claim 13 , wherein said first optical fiber is a first multi-core optical fiber. 15 . The device of claim 4 , further comprising: a third tab adjacent said first rim and projecting away from said first rim and said tubular area, wherein said third tab is spaced a predetermined distance away from said first tab. 16 . The device of claim 15 , wherein said third tab has a width dimension which is different than a width dimension of said first tab. 17 . A device comprising: a ferrule alignment sleeve, wherein said sleeve extends in a longitudinal direction and forms a generally tubular inner area, and wherein a mid-section of said sleeve includes a recessed area extending into an outer surface of said sleeve toward said tubular inner area; a first rim formed around a first opening at one end of said tubular area to receive an end of a first ferrule; a second rim formed around a second opening at an opposite end of said tubular area; a first tab adjacent said first rim and projecting away from said first rim and said tubular area; a housing having a wall; a through hole formed in said wall of said housing; and a latch projecting from said wall toward said through hole, wherein an end edge of said latch forms an edge of said through hole, and wherein said latch is deflectable so as to deflect without breakage when engaged by an object larger in size than said through hole being pressed into said through hole, wherein said latch is resilient so as to snap back to an original position after the oversized object disengages sa