MODULAR OPTOELECTRIC ARRAY TRANSDUCER

1. A modular transducer adaptable for mounting onto an underlying printed-circuit board for transducing between optical signals propagating through an MT ferrule and electrical signals, said modular transducer comprising:

• an optoelectric transducer integrated circuit including a planar optical interface surface and a plurality of optoelectric transducer element ports arranged in a line array along an array axis with a pitch of 0.250 mm, said optoelectric transducer integrated circuit also including at least one individual electrical connection for each of said optoelectric transducer elements and one electrical connection common to all of said optoelectric transducer elements, at least said one individual electrical connection for each of said optoelectric transducer elements being located on said planar optical interface surface;
  
  a heat spreading substrate which is both thermally and electrically conductive, said heat spreading substrate defining a front surface, which front surface defines a planar portion and at least one depressed portion in which said optoelectric transducer integrated circuit lies with said planar portion of said front surface of said heat spreading substrate substantially coplanar with said planar optical interface surface, said heat spreading substrate also defining a rear surface substantially parallel with said planar portion of said front surface;
  
  a transparent film extending over said planar optical interface circuit and at least a portion of said front surface of said heat spreading substrate, said transparent film bearing electrically conductive traces connected to said electrical connections of said optoelectric transducer elements;
  
  first and second alignment pins having diameters of 0.698 mm extending substantially perpendicularly from said planar portion of said front surface of said heat spreading substrate at locations lying substantially on said array axis at distances of 2.3 mm from the center of said line array, said alignment pins extending through said transparent film if said transparent film overlies said locations;
  
  a heat sink including substantially mutually orthogonal first and second planar surfaces, at least a portion of said first planar surface of said heat sink being thermally coupled to said rear surface of said heat spreading substrate for heat transfer therebetween;
  
  an interface printed circuit including a dielectric sheet defining first and second broad surfaces, said dielectric sheet being physically supported, at least in part, by said second surface of said heat sink, said interface printed circuit further including electrically conductive circuit traces making electrical connection to at least some of said electrically conductive traces borne by said transparent film, said interface printed circuit further including electrically conductive bond pads adaptable for connection to at least some electrically conductive traces of said underlying printed circuit, said electrically conductive bond pads being generally planar connecting surfaces physically supported by said dielectric sheet of said interface printed circuit, said electrically conductive bond pads being accessible on said second side of said dielectric sheet.