Cable for downhole equipment

What is claimed is: 1 . An electric submersible pump system comprising: a shaft; a power cable connector for receipt of multiphase power; a multiphase electric motor configured to receive power via the power cable connector for rotatably driving the shaft; a pump operatively coupled to the shaft; and a power cable that comprises a connector for connection to the power cable connector, a row multiphase conductors, a jacket surrounding the row of multiphase conductors that comprises a polymer, and an outer coating that comprises a fluoropolymer. 2 . The electric submersible pump system of claim 1 wherein the jacket comprises a thermal conductivity greater than about 0.24 W/mK. 3 . The electric submersible pump system of claim 2 wherein the jacket comprises a filler material disposed in a matrix that comprises the polymer. 4 . The electric submersible pumps system of claim 3 wherein the filler material comprises a thermal conductivity in excess of about 0.24 W/mK. 5 . The electric submersible pump system of claim 1 wherein the jacket comprises anisotropic thermal conductivities. 6 . The electric submersible pump system of claim 1 wherein the power cable further comprises armor. 7 . The electric submersible pump system of claim 6 wherein the outer coating is disposed over the armor. 8 . The electric submersible pump system of claim 1 wherein the row of multiphase conductors comprises three conductors for delivery of three phase power to the multiphase electric motor. 9 . The electric submersible pump system of claim 8 wherein the three conductors comprise a middle conductor and two outer conductors. 10 . A power cable comprising: a major axis dimension and a minor axis dimension; a minor axis dimension to major axis dimension ratio in a range of 2 to 1 to 5 to 1; multiphase conductors spaced along the major axis dimension; a jacket surrounding the multiphase conductors that comprises a polymer; and an outer coating that comprises a fluoropolymer. 11 . The power cable of claim 10 wherein the multiphase conductors comprise a middle conductor and two end conductors wherein the middle conductor comprises a larger cross-sectional area than the two end conductors. 12 . The power cable of claim 10 wherein the jacket comprises a thermal conductivity greater than about 0.24 W/mK. 13 . The power cable of claim 10 wherein the outer coating comprises poly(vinylidene fluoride-co-hexafluoropropylene) (PVDF-HFP), ethylene tetrafluoroethylene (ETFE) or poly(vinylidene fluoride-co-hexafluoropropylene) (PVDF-HFP) and ethylene tetrafluoroethylene (ETFE). 14 . The power cable of claim 10 wherein the outer coating comprises a composite material that comprises carbon fiber. 15 . The power cable of claim 10 wherein the major axis dimension is less than approximately 5 cm. 16 . A method comprising: providing an electric submersible pump system in a downhole environment wherein the electric submersible pump system comprises a shaft; a power cable connector for receipt of multiphase power; a multiphase electric motor that receives power via the power cable connector for rotatably driving the shaft; a pump operatively coupled to the shaft; and a power cable connected to the power cable connector wherein the power cable comprises a row multiphase conductors, a jacket surrounding the row of multiphase conductors that comprises a polymer, and an outer coating that comprises a fluoropolymer; supplying multiphase power to the power cable to energize the multiphase electric motor to thereby pump downhole fluid from the downhole environment to a surface environment; generating heat energy in the row of multiphase conductors responsive to the supplying of multiphase power; dissipating heat energy from the row of multiphase conductors via the jacket; and removing at least the power cable from the downhole environment to the surface environment without entraining downhole fluid in the power cable. 17 . The method of claim 16 wherein the jacket comprises a thermal conductivity greater than 0.24 W/mK and wherein the dissipating acts to maintain balance across the multiple phases. 18 . The method of claim 17 further comprising measuring unbalance at a wye point of the multiphase electric motor. 19 . The method of claim 18 further comprising estimating temperature differences with respect to the conductors of the row of multiphase conductors based at least in part on the measuring unbalance. 20 . The method of claim 16 wherein the outer coating of the power cable comprises a smooth surface such that the removing at least the power cable from the downhole environment to the surface environment does not entrain downhole fluid in the power cable.