Separators, batteries, systems, vehicles, and related methods

We claim: 1. A membrane comprising: a microporous polymer film that provides a battery with at least 3 C charge and/or discharge performance, at least 5 C charge and/or discharge performance, or at least 10 C charge and/or discharge performance; a microporous polymer film made by a dry-stretch process and having substantially round shaped pores, and a ratio of machine direction tensile strength to transverse direction tensile strength in the range of 0.5 to 6.0, and porosity in the range of 50% to 80%, a mean flow pore diameter from about 0.050 to about 0.50 microns, and a JIS Gurley of from about 25 to about 69 seconds. 2. The membrane according to claim 1 wherein said film being made by a method of stretching including at least one of: biaxial stretching including a machine direction stretch and a transverse direction stretch with a simultaneous controlled machine direction relax, simultaneous or sequential machine direction stretch and transverse direction stretch, and machine direction stretch followed by transverse direction stretch with simultaneous machine direction relax. 3. The membrane according to claim 1 wherein the polymer being at least one of a semi-crystalline polymer and a semi-crystalline polymer having a crystallinity in the range of 20-80%. 4. The membrane according to claim 1 wherein said polymer being selected from the group consisting of polyolefins, fluorocarbons, polyamides, polyesters, polyacetals (or polyoxymethylenes), polysulfides, polyvinyl alcohols, co-polymers thereof, and combinations thereof. 5. The membrane according to claim 1 wherein an average pore size of said microporous polymer film being in the range of 0.09 to 0.99 microns. 6. The membrane according to claim 1 wherein said microporous polymer film having a porosity in the range of 60-80%. 7. The membrane according to claim 1 wherein said transverse tensile strength being ≥500 Kg/cm 2 . 8. The membrane according to claim 1 having a thickness in the range of 10-25 microns, a porosity in the range of 60-80%, a transverse direction (TD) tensile strength in the range of 500-700 Kg/cm 2 , a machine direction (MD) tensile strength in the range of 700-1000 Kg/cm2, and a MD/TD tensile strength ratio in the range of 1.4-1.6. 9. The membrane of claim 1 wherein the microporous polymer film provides a battery with a discharge rate of at least 5 C. 10. The membrane of claim 1 wherein the microporous polymer film provides a battery with a discharge rate of at least 10 C. 11. A battery separator comprising the membrane of claim 1 . 12. The battery separator of claim 11 wherein the membrane being at least one ply of a multi-ply membrane. 13. The battery separator of claim 12 wherein the plies of the multi-ply membrane are laminated to one another. 14. The battery separator of claim 12 wherein the membrane being all plies of a multi-ply membrane. 15. The battery separator of any of claim 12 wherein the plies of the multi-ply membrane being made of the same materials. 16. The battery separator of any of claim 12 wherein the plies of the multi-ply membrane being made of differing materials. 17. A battery comprising the battery separator of claim 11 . 18. A mufti-layered membrane structure comprising the membrane of claim 1 . 19. The multi-layered membrane structure of claim 18 wherein layers of the multi-layered membrane are co-extruded. 20. The mufti-layered membrane structure of claim 19 wherein the layers of the mufti-layered membrane are made of the same materials. 21. The multi-layered membrane structure of claim 19 wherein the layers of the mufti-layered membrane are made of differing materials. 22. A device having a membrane, the membrane being the membrane according to claim 1 , wherein the device being: a battery, cell, battery pack, system, electronic device, vehicle, or fuel cell.