Electrical jack with a plurality of parallel and overlapping capacitive plates

The invention claimed is: 1. An electrical jack comprising: a housing including: a first part having a socket formed therein and shaped to at least partially receive a plug electrically connected to a first twisted-pair cable; and a second part having a plurality of insulation displacement contact slots; a plurality of electrically conductive contacts including (i) resiliently compressible spring finger contacts extending into the socket, (ii) insulation displacement contacts seated in corresponding insulation displacement contact slots and shaped to receive end sections of insulated conductors of a second twisted-pair cable, and (iii) midsections electrically connecting between the spring finger contacts and the insulation displacement contacts; and a plurality of capacitive plates, each of the plurality of capacitive plates electrically coupled to a different one of the electrically conductive contacts, the plurality of capacitive plates including at least a first capacitive plate and a second capacitive plate electrically connected to adjacent electrically conductive contacts, wherein the first capacitive plate and the second capacitive plate are of different sizes and positioned parallel to each other and at least partially overlap. 2. The electrical jack of claim 1 , wherein the socket is shaped to receive an RJ-45 plug. 3. The electrical jack of claim 1 , wherein the area of overlap between the first capacitive plate and the second capacitive plate induces capacitive coupling between the first capacitive plate and the second capacitive plate. 4. The electrical jack of claim 3 , wherein the capacitive coupling is included within a first zone of crosstalk compensation between the adjacent electrically conductive contacts. 5. The electrical jack of claim 3 , further comprising a plurality of zones of crosstalk compensation between the adjacent electrically conductive contacts. 6. The electrical jack of claim 1 , wherein the first and second capacitive plates have different sizes. 7. The electrical jack of claim 1 , further comprising a dielectric positioned at least partially within the area of overlap between the first capacitive plate and the second capacitive plate. 8. The electrical jack of claim 7 , wherein the dielectric material is included in the first part of the housing. 9. The electrical jack of claim 1 , wherein the plurality of capacitive plates are electrically coupled to and extend from respective ones of the midsections. 10. The electrical jack of claim 9 , wherein the electrically conductive contacts include elbows between the spring finger contacts and the midsections, and wherein the plurality of capacitive plates are electrically connected to the midsections near the elbows. 11. The electrical jack of claim 1 , wherein the contacts are seated in corresponding channels of the housing. 12. The electrical jack of claim 1 , wherein the first part of the housing and the second part of the housing are slidably couplable together in a direction transverse to a direction of insertion of a plug into the socket. 13. The electrical jack of claim 1 , wherein the adjacent electrically conductive contacts are crossed over to induce a phase shift in a signal carried by the adjacent electrically conductive contacts. 14. The electrical jack of claim 1 , wherein a space between a first pair of adjacent electrically conductive contacts is doubled relative to spacing between a second pair of adjacent electrically conductive contacts. 15. An electrical jack comprising: a housing including: a first part having a socket formed therein and shaped to at least partially receive a plug electrically connected to a first twisted-pair cable; and a second part having a plurality of insulation displacement contact slots; first, second, third, fourth, fifth, sixth, seventh, and eighth consecutively arranged electrically conductive contacts each including (i) a resiliently compressible spring finger contact extending into the socket, (ii) an insulation displacement contact seated in a corresponding insulation displacement contact slot and shaped to receive an end section of an insulated conductor of a second twisted-pair cable, and (iii) a midsection electrically connecting between corresponding spring finger contact and insulation displacement contact; and a plurality of capacitive plates, each of the plurality of capacitive plates electrically coupled to a different one of the electrically conductive contacts, the plurality of capacitive plates including at least a first capacitive plate and a second capacitive plate electrically connected to adjacent ones of the electrically conductive contacts, wherein the first capacitive plate and the second capacitive plate are of different sizes and positioned parallel to each other and at least partially overlap. 16. The electrical jack of claim 15 , wherein the first, second, third, and fourth contacts are spaced a constant distance apart. 17. The electrical jack of claim 16 , wherein the fifth, sixth, seventh, and eighth contacts are spaced apart by the constant distance. 18. The electrical jack of claim 17 , wherein the fourth and fifth contacts are spaced apart a distance that is double the constant distance. 19. The electrical jack of claim 15 , further comprising a dielectric positioned at least partially within the area of overlap between the first capacitive plate and the second capacitive plate. 20. The electrical jack of claim 15 , wherein the socket is shaped to receive an RJ-45 plug.