High bandwidth differential lead with device connection

The invention claimed is: 1. A signal lead structured to be attached to an electrical device, the signal lead comprising: a signal pad; a first spring housing, the first spring housing structured to touch the electrical device when the signal lead is attached to the electrical device; a printed circuit board coupled to the first spring housing, the signal pad being disposed on the printed circuit board; a first spring carried in the first spring housing, the first spring being uncompressed and having a first end extending beyond a surface of the first spring housing when the signal lead is not attached to the electrical device, and the first spring being compressed and having the first end substantially even with the surface of the first spring housing when the signal lead is attached to the electrical device, and the first spring structured to touch the electrical device and carry an electrical signal between the electrical device and the signal pad when the signal lead is attached to the electrical device; a flexible electrical conduit coupled to the printed circuit board at a first end of the flexible electrical conduit, the flexible electrical conduit extending away from the first spring housing, wherein the flexible electrical conduit comprises a substantially planar flexible plastic substrate having a plurality of integrated conductive paths; electrical terminals disposed at a second end of the flexible electrical conduit, opposite the first end, the electrical terminals printed on a surface of the flexible electrical conduit, and the electrical terminals structured to be inserted into a receiving socket coupled to a test device; and a signal processing circuit mounted on the printed circuit board and coupled to the signal pad, the signal processing circuit configured to modify the electrical signal received from the electrical device when the signal lead is attached to the electrical device and pass the modified electrical signal to the test device when the flexible electrical conduit is coupled to the test device at a second end, opposite the first end, of the flexible electrical conduit. 2. The signal lead of claim 1 , wherein the electrical terminals are structured to be inserted into a zero insertion force receiving socket. 3. The signal lead of claim 1 , further comprising a protective tab covering at least a portion of the printed circuit board and configured to physically protect the covered portion of the printed circuit board. 4. The signal lead of claim 1 , further comprising an identification device coupled to the printed circuit board and configured to electronically identify the particular signal lead to the test device when the flexible electrical conduit is coupled to the test device at a second end, opposite the first end, of the flexible electrical conduit. 5. The signal lead of claim 1 , in which the first spring is a torsion spring. 6. The signal lead of claim 1 , further comprising: a ground pad disposed on the printed circuit board; and a second spring electrically coupled to the ground pad and structured to touch the electrical device and carry a ground signal between the electrical device and the ground pad when the signal lead is attached to the electrical device. 7. A signal lead structured to be attached to an electrical device, the signal lead comprising: a signal pad; a second signal pad; a first spring housing, the first spring housing structured to touch the electrical device when the signal lead is attached to the electrical device; a printed circuit board coupled to the first spring housing, the signal pad and the second signal pad being disposed on the printed circuit board; a first spring carried in the first spring housing, the first spring being uncompressed and having a first end extending beyond a surface of the first spring housing when the signal lead is not attached to the electrical device, and the first spring being compressed and having the first end substantially even with the surface of the first spring housing when the signal lead is attached to the electrical device; a second spring carried in the first spring housing, the second spring being uncompressed and having a first end extending beyond a surface of the first spring housing when the signal lead is not attached to the electrical device, and the second spring being compressed and having the first end substantially even with the surface of the first spring housing when the signal lead is attached to the electrical device; a flexible electrical conduit coupled to the printed circuit board at a first end of the flexible electrical conduit, the flexible electrical conduit extending away from the first spring housing, wherein the flexible electrical conduit comprises a substantially planar flexible plastic substrate having a plurality of integrated conductive paths; and electrical terminals disposed at a second end of the flexible electrical conduit, opposite the first end, the electrical terminals printed on a surface of the flexible electrical conduit, and the electrical terminals structured to be inserted into a receiving socket coupled to a test device, wherein the first spring and the second spring are structured to align with a pair of lands on the electrical device when the signal lead is attached to the electrical device and to convey a differential electrical signal from the pair of lands to the signal pad and the second signal pad, and wherein a pair of conductive paths of the plurality of conductive paths is structured to convey the differential electrical signal from the signal pad and the second signal pad to the test device through a corresponding pair of electrical terminals on the flexible electrical and a corresponding pair of electrical terminals in the receiving socket. 8. The signal lead of claim 7 , in which the first spring and the second spring are torsion springs. 9. The signal lead of claim 1 , further comprising an attachment mechanism configured to securely attach the signal lead to the electrical device. 10. The signal lead of claim 9 , in which the attachment mechanism is a clamp. 11. The signal lead of claim 9 , in which the attachment mechanism is an adhesive foam. 12. The signal lead of claim 9 , in which the attachment mechanism is an epoxy. 13. The signal lead of claim 1 , in which the first spring housing comprises an electrically insulative plastic. 14. The signal lead of claim 7 , wherein the electrical terminals are structured to be inserted into a zero insertion force receiving socket. 15. The signal lead of claim 7 , further comprising: a signal processing circuit mounted on the printed circuit board and coupled to the signal pad and the second signal pad, the signal processing circuit configured to modify the differential electrical signal received from the electrical device when the signal lead is attached to the electrical device and pass the modified differential electrical signal to the test device when the flexible electrical conduit is coupled to the test device at a second end, opposite the first end, of the flexible electrical conduit. 16. The signal lead of claim 7 , in which the first spring and the second spring are torsion springs. 17. The signal lead of claim 7 , further comprising a protective tab covering at least a portion of the printed circuit board and configured to physically protect the covered portion of the printed circuit board. 18. The signal lead of claim 7 , further comprising an identification device coupled to the printed circuit board and configured to electronically