Opto-electric module for backplane connector

What is claimed is: 1 . An opto-electric (OE) module having a front and back orientation and comprising: a connector having a front end configured to mate with a mating connector, and a cavity rearward of said front end adapted to receive at least one first ferrule, an opening above said cavity to provide access for said first ferrule to said cavity, and a first interface on the periphery of said cavity to receive a second interface of a cover; an optical interconnect with first and second ends, said first end being terminated by said first ferrule, said first ferrule being disposed in said cavity in a non-biased state, and said second end being optically coupled to at least one opto-electric device (OED); said cover having said second interface and an interior, said second interface coordinating with said first interface such that said cover covers said cavity, thereby holding said first ferrule in said cavity between said cover and said connector; a circuit board disposed in said interior and having an electrical interface configured to connect to a second circuit board; and said OED attached to said circuit board and optically connected to said second ferrule. 2 . The module of claim 1 , wherein said optical interconnect comprises one or more fibers. 3 . The module of claim 2 , wherein said optical interconnect comprises an optical flex circuit. 4 . The module of claim 1 , further comprising a ferrule backer disposed behind said first ferrule in said cavity, said ferrule backer having at least one convex surface facing forward to contact a rearward side of said first ferrule. 5 . The module of claim 1 , wherein said optical interconnect is not configured to bend to accommodate distance variations between said first ferrule and said OED. 6 . The module of claim 5 , wherein said optical interconnect is essentially straight horizontally between first ferrule and said OED. 7 . The module of claim 1 , wherein said second end of said optical interconnect is integrated with said OED. 8 . The module of claim 1 , wherein said second end is terminated by a second ferrule and said second ferrule is optically coupled to said OED. 9 . The module of claim 8 , wherein said first and second ferrules are held rigidly in position. 10 . The module of claim 8 , wherein said first and second ferrules are the same. 11 . The module of claim 10 , wherein said first and second ferrules are multi-fiber ferrules. 12 . The module of claim 11 , wherein said first and second ferrules are MT-type ferrules. 13 . The module of claim 1 , wherein said first ferrule is a lensed ferrule. 14 . The module of claim 1 , wherein said cavity is contoured to the shape of said first ferrule to hold said first ferrule rigidly in place. 15 . The module of claim 1 , wherein said first interface is upward facing. 16 . The module of claim 1 , wherein said connector complies with the slot spacing of VITA 66.4 connectors. 17 . The module of claim 1 , further comprising a backplane having at least one backplane connector adapted to mate with said first ferrule, said backplane connector comprising a backplane ferrule and a spring to bias said backplane ferrule forward. 18 . An opto-electric (OE) module having a front and back orientation and comprising: a connector having a front end configured to mate with a connector; an optical interconnect comprising an optical conduit with first and second ends, said first end being terminated by at least one first ferrule, said first ferrule being disposed in said connector in a non-biased state, and said second end being optically coupled to at least one opto-electric device (OED), wherein said optical interconnect is not configured to bend to accommodate distance variations between said first ferrule and said OED; a cover being attached to said connector and having an interior; a circuit board disposed in said interior and having an electrical interface configured to connect to a daughter card; and said opto-electric device (OED) attached to said circuit board and optically connected to said second end. 19 . The module of claim 18 , wherein said second end is terminated with a second ferrule, said first and second ferrules being the same. 20 . The module of claim 19 , wherein said first and second ferrules are MT ferrules. 21 . The module of claim 18 , wherein said second end is integrated with said OED. 22 . A backplane system comprising: a backplane comprising at least one backplane connector, said backplane connector comprising a backplane ferrule and a spring to bias said backplane ferrule forward; and at least one daughter card comprising at least one opto-electric (OE) module having a front and back orientation and comprising at least: a connector having a front end configured to mate with said backplane connector; an optical interconnect comprising an optical conduit with first and second ends, said first end being terminated by at least one first ferrule, said first ferrule being disposed in said connector in a non-biased state, and said second end being optically coupled to at least one opto-electric device (OED), wherein said optical interconnect is not configured to bend to accommodate distance variations between said first ferrule and said OED; a cover being attached to said connector and having an interior; a circuit board disposed in said interior and having an electrical interface configured to connect to said daughter card; and said opto-electric device (OED) attached to said circuit board and optically connected to said second end. 23 . The backplane system of claim 22 , wherein said at least one opto-electric (OE) module is configured to be blind-mated with said at least one backplane connector.