Fault tolerant subsea transformer

What is claimed is: 1. A subsea transformer comprising: a primary set of coil windings; a secondary set of coil windings; a first sealed tank defined by a first tank wall and housing the primary and secondary sets of coil windings and a first dielectric fluid which bathes the primary and secondary sets of coil windings, wherein the first tank wall is configured for deployment in a subsea environment, and the first tank wall comprises a first side wall that extends around the primary and secondary sets of coil windings; a second sealed tank housing a second dielectric fluid and being positioned adjacent to the first sealed tank such that the first and second sealed tanks share a shared portion of the first tank wall, wherein the shared portion of the first tank wall comprises a portion of the first side wall, wherein a volume of said second sealed tank extends around the portion of the first side wall, and the second tank wall comprises a second side wall that extends around the volume and the portion of the first side wall; a set of primary terminals mounted on the second sealed tank connected to a first electrical conduction path to the primary set of coil windings and passing through the second sealed tank, the shared portion of the first tank wall and into the first sealed tank; and a set of secondary terminals mounted on the second sealed tank connected to a second electrical conduction path to the secondary set of coil windings and passing through the second sealed tank, the shared portion of the first tank wall and into the first sealed tank. 2. The subsea transformer according to claim 1 wherein the shared portion of the first tank wall is less than about 50% of a total surface area of the first sealed tank, and wherein a non-shared portion of the first tank wall is configured for direct contact with ambient seawater which provides cooling to said first dielectric fluid. 3. The subsea transformer according to claim 1 wherein the subsea transformer is configured to remain operational when seawater leaks in to the second sealed tank but no leak exists between the first and second sealed tanks. 4. The subsea transformer according to claim 1 wherein the subsea transformer is configured to remain operational when a leak exists between the first and second sealed tanks but no seawater leaks into the second sealed tank. 5. The subsea transformer according to claim 1 further comprising a first pressure compensator in fluid communication with the first sealed tank and configured to balance internal pressure of the first sealed tank with ambient seawater pressure and/or pressure within the second sealed tank. 6. The subsea transformer according to claim 5 further comprising a second pressure compensator in fluid communication with the second sealed tank and configured to balance internal pressure of the second sealed tank with ambient seawater pressure. 7. The subsea transformer according to claim 6 wherein the first pressure compensator is at least partially housed within the second sealed tank. 8. The subsea transformer according to claim 1 further comprising one or more instruments housed within the second sealed tank. 9. The subsea transformer according to claim 1 further comprising a temperature sensor positioned and configured to measure temperature of the first dielectric fluid. 10. The subsea transformer according to claim 1 further comprising an integrated high resistance grounding system housed within the first sealed tank interconnected and configured to provide a high resistance ground path between a neutral node of the secondary windings and a ground. 11. The subsea transformer according to claim 1 wherein the transformer is a step-down or a step-up transformer. 12. The subsea transformer according to claim 1 wherein the volume in the second sealed tank is configured to collect seawater when seawater leaks into the second sealed tank. 13. The subsea transformer according to claim 12 wherein the subsea transformer is configured to remain operational when seawater leaks into the second sealed tank and when a leak exists between the first and second sealed tanks. 14. A subsea transformer, comprising: a primary set of coil windings; a secondary set of coil windings; a first tank defined by a first tank wall, wherein the first tank houses the primary and secondary sets of coil windings and a first dielectric fluid which surrounds the primary and secondary sets of coil windings, and wherein the first tank wall is configured for deployment in a subsea environment; a second tank positioned adjacent to the first tank and defined by a second tank wall and a shared portion of the first tank wall, wherein the second tank houses a second dielectric fluid, wherein a portion of the second tank wall extends around the shared portion of the first tank wall, and wherein a volume of the second tank between the portion of the second tank wall and the shared portion of the first tank wall is configured to collect a predetermined amount of seawater when seawater leaks into the second tank; a set of primary terminals mounted on the second tank and connected to a first electrical conduction path to the primary set of coil windings, wherein the first electrical conduction path passes through the second tank, the shared portion of the first tank wall, and into the first tank; and a set of secondary terminals mounted on the second tank connected to a second electrical conduction path to the secondary set of coil windings, wherein the second electrical conduction path passes through the second tank, the shared portion of the first tank wall, and into the first tank. 15. The subsea transformer of claim 14 , wherein the subsea transformer is configured to remain operational when an amount of seawater that leaks into the second tank is less than or equal to the predetermined amount and when a leak exists between the first and second tanks. 16. The subsea transformer of claim 14 , comprising: a first pressure compensator disposed adjacent to the second tank, wherein the first pressure compensator is in fluid communication with the second tank and configured to balance a first internal pressure of the second tank with ambient seawater pressure; and a second pressure compensator disposed in the second tank, wherein the second pressure compensator is in fluid communication with the first tank and configured to balance a second internal pressure of the first tank with the first internal pressure of the second tank. 17. The subsea transformer of claim 16 , wherein the first and second pressure compensators are vertically stacked with respect to one another. 18. The subsea transformer of claim 5 , wherein the first pressure compensator is at least partially housed within the second sealed tank, and the volume is offset from the first pressure compensator in the second sealed tank such that the volume is closer to the primary and secondary sets of coil windings than the first pressure compensator. 19. The subsea transformer of claim 14 , wherein the shared portion of the first tank wall comprises a first portion of a first side wall of the first tank wall, wherein the portion of the second tank wall comprises a second portion of a second side wall of the second tank wall, wherein the second side wall extends around the first side wall, and wherein the volume is disposed between the first portion of the first side wall and the second portion of the second side wall. 20. The subsea transformer of claim 14 , wherein the shared portio