Electrical cable with dielectric foam

What is claimed is: 1. An electrical cable comprising: a monolithic inner electrical insulator that comprises an electrically insulative material that is foamed so as to define a plurality of pores in the electrically insulative material; a pair of electrical conductors each surrounded by the inner electrical insulator along at least a majority of their respective lengths, wherein the electrical conductors are oriented substantially parallel to each other and spaced apart from each other; an electrically conductive shield that is disposed about at least a majority of a respective overall length of the inner electrical insulator; and an outer electrical insulator that surrounds at least a majority of a respective overall length of the electrically conductive shield, wherein the electrical cable includes only a single electrically insulative material disposed inside the electrical shield, and wherein the inner electrical insulator defines a radially outer perimeter that is substantially continuous and uninterrupted by open pores, wherein the radially outer perimeter is oval or racetrack shaped. 2. The electrical cable as recited in claim 1 , wherein at least approximately 80% of the pores are fully enclosed by the electrical insulator. 3. The electrical cable as recited in claim 2 , wherein approximately 90% of the pores are fully enclosed by the electrically insulative material. 4. The electrical cable as recited in claim 3 , wherein approximately 95% of the pores are fully enclosed by the electrically insulative material. 5. The electrical cable of claim 1 , wherein the electrical conductors have no more than approximately 14 picoseconds per meter of skew. 6. The electrical cable of claim 1 , wherein the electrical conductors have no more than approximately 14 picoseconds per meter of skew when conducting electrical signals at 14 Gigabits per second NRZ. 7. The electrical cable of claim 1 , wherein the electrical conductors have no more than approximately 7 picoseconds per meter of skew. 8. The electrical cable of claim 1 , wherein the electrical conductors have no more than 7 picoseconds per meter of skew when conducting electrical signals at 28 Gigabits per second NRZ. 9. The electrical cable of claim 1 , wherein the electrical conductors have no more than approximately 3.5 picoseconds per meter of skew. 10. The electrical cable of claim 1 , wherein the electrical conductors have no more than approximately 3.5 picoseconds per meter of skew when conducting electrical signals at 56 Gigabits per second NRZ. 11. The electrical cable of claim 1 , wherein the electrical conductors have no more than approximately 1.75 picoseconds per meter of skew. 12. The electrical cable of claim 1 , wherein the electrical conductors have no more than approximately 1.75 picoseconds per meter of skew when conducting electrical signals at 128 Gigabits per second NRZ. 13. The electrical cable of claim 1 , wherein the electrical conductors comprise at least one of copper, copper-nickel, silver, aluminum, tin, and one or more alloys thereof. 14. The electrical cable of claim 1 , wherein the electrical conductors have a gauge in a range from approximately 25 awg to approximately 36 awg. 15. The electrical cable of claim 1 , wherein the pores have an average void volume that is less than 50% of a wall thickness of the foam. 16. The electrical cable of claim 1 , wherein the electrical cable is configured to transmit electrical signals along the electrical conductors at a frequency of approximately 8 GHz along an approximately five foot length of the electrical cable, wherein the electrical conductors have a gauge of approximately 26 awg, and the transmitted electrical signals have an insertion loss between approximately 0 dB to approximately-3 dB. 17. The electrical cable of claim 1 , wherein when the electrical conductors have a gauge of approximately 36 awg, a length of approximately five feet, the electrical conductors are configured to transmit electrical signals at a frequency up to approximately 50 GHz with an insertion loss in a range from approximately 0 dB to approximately-25 dB. 18. The electrical cable of claim 1 , wherein respective centers of the electrical conductors are spaced from each other a distance that is in a range from approximately 0.005 inch to approximately 0.025 inch. 19. The electrical cable of claim 1 , wherein the electrical conductors are configured to transmit electrical signals having a propagation delay less than approximately 1.245 nanoseconds per foot. 20. The electrical cable of claim 19 , wherein the propagation delay ranges from approximately 1.16 nanoseconds per foot to approximately 1.245 nanoseconds per foot. 21. The electrical cable of claim 1 , wherein electrical signals travelling along the electrical conductors at frequencies up to approximately 50 GHz do not have insertion losses that vary more than 0.5 dB within a frequency delta of 0.5 GHz. 22. The electrical cable of claim 1 , wherein when the electrical conductors have a gauge of approximately 35 awg, the electrical cables are configured to transmit electrical signals at approximately 112 gigabits per second along a length of approximately 0.45 meter with an insertion loss no worse than-5 decibels at 28 GHz or less. 23. The electrical cable of claim 1 , wherein when the electrical conductors have a gauge of approximately 33 awg, the electrical cables are configured to transmit electrical signals at approximately 112 gigabits per second along a length of approximately 0.6 meter with an insertion loss no worse than-5 decibels at 28 GHz or less. 24. The electrical cable of claim 1 , wherein an entirety of the radially outer perimeter is continuous and uninterrupted by open pores. 25. The electrical cable of claim 1 , wherein the pores are substantially uniform in the inner electrical insulator. 26. The electrical cable of claim 1 , wherein the inner electrical insulator defines a radially inner perimeter opposite the radially outer perimeter, and the radially inner perimeter is substantially continuous and uninterrupted by open pores.