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An electrical connector includes a wafer formed with a ground shield made from a non-conductive material made conductive with conductive particles disposed therein, thereby eliminating the necessity of the metal ground shield plate found in prior art connectors while maintaining sufficient performan

An electrical connector includes a wafer formed with a ground shield made from a non-conductive material made conductive with conductive particles disposed therein, thereby eliminating the necessity of the metal ground shield plate found in prior art connectors while maintaining sufficient performance characteristics and minimizing electrical noise generated in the wafer. The wafer housing is formed with a first, insulative housing at least partially surrounding a pair of signal strips and a second, conductive housing at least partially surrounding the first, insulative housing and the signal strips. The housings provide the wafer with sufficient structural integrity, obviating the need for additional support structures or components for a wafer. Ground strips may be employed in the wafer and may be formed in the same plane as the signal strips. The second, conductive housing may be connected (e.g., molded) to the ground strips and spaced appropriately from the signal strips. The wafer may also include air gaps between the signal strips of one wafer and the conductive housing of an adjacent wafer further reducing electrical noise or other losses (e.g., cross-talk) without sacrificing significant signal strength.

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What is claimed is: 1. A wafer for an electrical connector having a plurality of wafers, the wafer comprising: a housing comprising a first, insulative housing and a second, conductive housing; and a plurality of signal strips disposed within the first, insulative housing, the first, insulative hou

What is claimed is: 1. A wafer for an electrical connector having a plurality of wafers, the wafer comprising: a housing comprising a first, insulative housing and a second, conductive housing; and a plurality of signal strips disposed within the first, insulative housing, the first, insulative housing comprising an insulative material securing the plurality of signal strips and spacing the plurality of signal strips from the second, conductive housing; wherein the second, conductive housing is formed of a non-conductive binder material having conductive particles associated therewith, thereby rendering the second, conductive housing conductive, the second, conductive housing configured and arranged relative to the plurality of signal strips to shield at least some of the plurality of signal strips to reduce or eliminate electrical noise, the second conductive portion being discontinuous. 2. The wafer of claim 1, further comprising at least one ground strip disposed within and electrically coupled to the second, conductive housing, and wherein the at least one ground strip is disposed in a plane and the plurality of signal strips is disposed in the same plane. 3. The wafer of claim 1, wherein the first, insulative housing is disposed on a first side of the plurality of signal strips and wherein the first, insulative housing and the second, conductive housing are configured to provide an air gap on a second, opposite side of the plurality of signal strips when a second wafer is disposed adjacent the wafer. 4. The wafer of claim 1, wherein the second, conductive housing is formed with a planar portion and an upstanding portion, with the upstanding portion being adapted to space the plurality of signal strips of one wafer from a plurality of signal strips of an adjacent wafer by a distance of between about 1.85 mm and about 4.0 mm. 5. The wafer of claim 1, wherein the conductive particles are disposed in the second, conductive housing. 6. The wafer of claim 1, wherein a first portion of the second, conductive housing is more conductive than a second portion of the second, conductive housing. 7. The wafer of claim 1, wherein the second, conductive housing is formed of an electrically lossy material. 8. The wafer of claim 1, wherein the discontinuous second conductive portion comprises a plurality of segments with insulative material disposed between adjacent segments. 9. The wafer of claim 1, wherein the second conductive portion has a surface resistivity between about 10 Ohms per square and 100 Ohms per square. 10. A wafer for an electrical connector having a plurality of wafers, the wafer comprising: a housing comprising a first, insulative portion and a second, conductive portion; and a plurality of signal strips disposed within the first, insulative portion, the plurality of signal strips defining a first signal pair and a second signal pair, each of the first signal pair and the second signal pair comprising a longer signal strip and a shorter signal strip, wherein the second, conductive portion is at least partially formed of a non-conductive material having conductive particles associated therewith, thereby rendering the second, conductive portion conductive, the second, conductive portion configured and arranged relative to the plurality of signal strips to reduce or eliminate electrical noise, wherein the first, insulative portion is disposed on a first side of the plurality of signal strips and wherein the housing has at least one recessed portion in a second, opposite side of the plurality of signal strips, the at least one cavity configured to provide an air gap when a second like wafer is disposed adjacent the second side, wherein the air gap comprises a first air gap over the first signal pair and a second, separate air gap over the second signal pair, the first air gap being preferentially proximate the longer signal strip of the first pair and the second air gap being disposed preferentially proximate the longer signal strip of the second signal pair, whereby a conductive portion of the second, like wafer is positioned between the air gap and the signal strips of the second wafer. 11. The wafer of claim 10, wherein the second, conductive portion is formed with a planar portion, with the planar portion having a thickness of up to about 2.0 mm. 12. The wafer of claim 10, wherein the second, conductive portion is formed with a planar portion and an upstanding portion, with the upstanding portion being adapted to electrically couple to a second, conductive portion of the second wafer. 13. The wafer of claim 10, wherein the second, conductive portion is formed with a planar portion and an upstanding portion, with the upstanding portion being adapted to space the plurality of signal strips of the wafer from plurality of signal strips of the second wafer by a distance between about 1.85 mm and about 4.0 mm. 14. The wafer of claim 10, wherein the second, conductive portion is formed with a planar portion and wherein the first, insulative portion is disposed between the plurality of signal strips and the planar portion of the second, conductive portion, with the thickness of the first, insulative portion between the second, conductive portion and the plurality of signal strips being about 0.04 mm. 15. The wafer of claim 10, wherein the second, conductive portion is formed of an electrically lossy material. 16. A method of forming the wafer of claim 10, comprising: in a first operation, molding the first, insulative portion at least partially about the plurality of signal strips; and in a second operation, molding the second, conductive portion at least partially about the first, insulative housing and the plurality of signal strips and about the at least one ground strip, wherein molding the first, insulative housing and the second, conductive housing comprises forming the respective portion to produce the cavity adjacent a pair of signal strips and produce a shield between adjacent pairs of signal strips. 17. The wafer of claim 10, further comprising at least one ground strip disposed within and electrically coupled to the second, conductive portion. 18. The wafer of claim 17, wherein the at least one ground strip is disposed in a plane and wherein the plurality of signal strips is disposed in the same plane. 19. An electrical connector comprising: a) a plurality of signal conductors, the plurality of signal conductors being disposed in an array having at least one column; b) a housing comprising a plurality of lossy regions, each lossy region disposed adjacent at least one of the plurality of signal conductors; and c) a plurality of ground conductors, each of the ground conductors: being disposed in a column of the at least one column; being disposed adjacent at least one signal conductor of the plurality of signal conductors in the column; and having at least one edge facing an adjacent signal conductor of the plurality of signal conductors, wherein a lossy region of the plurality of lossy regions is positioned relative to the ground conductor with a setback from the edge of the ground conductor in a direction away from the adjacent signal conductor. 20. The electrical connector of claim 19, further comprising at least one insulative portion, the insulative portion having a plurality of insulative regions; and wherein for each ground conductor, an insulative region of the plurality of insulative regions is positioned between the adjacent signal conductor and a lossy region adjacent the signal conductor and the insulative region is positioned in the setback. 21. The electrical connector of claim 20, wherein the insulative portion comprises molded plastic and is adapted and arranged to hold the plurality of signal conductors in an array.