Paddle card having shortened signal contact pads

The invention claimed is: 1. A substrate configured to be received by an electrical connector, the substrate comprising: a trailing end and a leading end spaced from the trailing end in a direction of insertion of the substrate into the electrical connector; at least one surface; at least one electrical signal contact pad carried by the at least one surface and defining a trailing edge and a leading edge spaced from the trailing edge in the direction of insertion, the electrical signal contact pad having a signal contact pad length from the leading edge to the trailing edge that is less than another signal contact pad length of a signal contact pad of another substrate that is configured to be received by the electrical connector by an offset distance of approximately 0.2 mm; and a lead-in contact pad disposed between the at least one electrical signal contact pad and the leading end, wherein the lead-in contact pad has a contact pad length greater than a lead-in contact pad length of the another substrate. 2. The substrate as recited in claim 1 , wherein the signal contact pad length is approximately 1.65 mm. 3. The substrate as recited in claim 1 , wherein the at least one electrically conductive signal contact pad comprises a plurality of electrically conductive pads arranged in pairs, and the substrate further comprises a ground contact pad disposed between the pairs. 4. The substrate as recited in claim 1 , further comprising an electrical lead-in contact pad disposed between the at least one electrical signal contact pad and the leading end, wherein the lead-in contact pad has a contact pad length greater than a lead-in contact pad length of the another substrate. 5. The substrate as recited in claim 4 , wherein the lead-in contact pad length of the substrate is greater than the lead-in contact pad length of the another substrate by the offset distance. 6. The substrate as recited in claim 4 , wherein a trailing edge of the at least one lead-in contact pad is spaced from the leading end of the substrate a distance that is greater than a distance by which a trailing edge of a lead-in contact pad of the another substrate is spaced from a leading end of the another substrate. 7. The substrate as recited in claim 4 , wherein the lead-in contact pad is spaced from the leading edge of the select signal contact a distance that is equal to a distance at which the contact pad of the otherwise substantially identical substrate is spaced from the leading edge of the signal contact of the another substrate. 8. The substrate as recited in claim 7 , wherein the at least one electrically conductive signal contact pad comprises a plurality of electrically conductive pads arranged in pairs, and the substrate further comprises: a ground contact pad disposed between the pairs; and a plurality of lead-in contact pads, each aligned with a respective one of the electrical signal contact pads along the direction of insertion. 9. The substrate as recited in claim 1 , wherein the leading edge of the at least one electrical signal contact pad is spaced from the leading end of the substrate approximately 2 mm greater than the distance that a leading edge of the signal contact of the otherwise substantially identical substrate is spaced from the leading end of the otherwise substantially identical substrate. 10. The substrate as recited in claim 1 , wherein the at least one electrical signal contact pad defines a contact location that is configured to contact a mounting portion of a signal contact of the electrical connector when the substrate is fully mated to the electrical connector, and the contact location is spaced from a leading edge of the electrical signal contact pad by a distance of approximately 1.65 mm. 11. The substrate as recited in claim 1 , wherein the at least one electrical signal contact pad defines a contact location that is configured to contact a mounting portion of a signal contact of the electrical connector when the substrate is fully mated to the electrical connector, and the contact location is spaced from a leading edge of the electrical signal contact pad by a distance that is less than a corresponding distance by which a contact location of the another substrate is spaced from a leading end of the another signal contact pad. 12. The substrate as recited in claim 11 , wherein the contact location of the at least one electrical signal contact pad is spaced from the leading end of the substrate a distance that is equal to a distance at which the contact location of the otherwise substantially identical substrate is spaced from the leading end of the otherwise substantially identical substrate. 13. The substrate as recited in claim 1 , configured substantially identical to the another substrate, with the exception of the lead-in contact pad length and the signal contact pad length. 14. The substrate as recited in claim 13 , wherein the at least one surface comprises first and second surfaces each carrying the plurality of electrically conductive signal contact pads, the ground contact pads, and the lead-in contact pads. 15. An electrical connector comprising a connector housing and a plurality of electrical contacts supported by the connector housing, the electrical contacts having mating ends that extend into at least one receptacle of the connector housing, and the at least one receptacle is configured to receive at least one of the substrate as recited in claim 2 , so as to mate the electrical contacts to the substrate. 16. The electrical connector as recited in claim 15 , configured as a SAS connector, a mini-SAS connector, or a mini-SAS HD connector. 17. The electrical connector as described in claim 16 , wherein: the at least one signal contact pad of the substrate comprises a plurality of pairs of signal contact pads configured to mate with a respective plurality of pairs of the electrical contacts of the connector; and the plurality of pairs of the electrical contacts and the plurality of pairs of signal contact pads on the substrate are configured to operate with one another at least above 13 GHz without crossing a return loss threshold of −10 dB. 18. The substrate as described in claim 1 , wherein the another substrate is fully compliant with a mini-SAS HD specification. 19. A method of mating a substrate to an electrical connector, the substrate comprising: a trailing end and a leading end spaced from the trailing end in a direction of insertion of the substrate into the electrical connector; at least one surface; and at least one electrical signal contact pad carried by the at least one surface and defining a trailing edge and a leading edge spaced from the trailing edge in the direction of insertion, the electrical signal contact pad having a signal contact pad length from the leading edge to the trailing edge that is less than another signal contact pad length of a signal contact pad of another substrate that is configured to be received by the electrical connector by an offset distance, wherein the at least one electrically conductive signal contact pad comprises a plurality of electrically conductive pads arranged in pairs, and the substrate further comprises a ground contact pad disposed between the pairs, the connector comprising: a connector housing and a plurality of electrical contacts supported by the connector housing, the electrical contacts having mating ends that extend into at least one receptacle of the connector housing, and the at least one receptacle is configured to receive at least one mat