Data transmission and control over power conductors

We claim: 1. A method of controlling a subsea device, comprising: a. establishing a data communication path between an electronically interrogatable component of a subsea device and a separate, remotely disposed device controller that is not part of the subsea device over a power conductor cable operatively coupled to a complimentary set of data communication interfaces, one data communication interface of the set of data communication interfaces operatively in communication with the electronically interrogatable component and the other data communication interface of the set of data communication interfaces operatively in communication with the remotely disposed device controller; b. providing power to the subsea device over the power conductor cable; c. using the power conductor cable to provide power to the subsea device; and d. detecting a primary data transmission pathway data communication failure; and e. after detecting the primary data transmission pathway data communication failure, switching to the data communication path to transmit data between the electronically interrogatable component and the remotely disposed device controller over the power conductor cable via a data transceiver operatively coupled to the subsea device and the electronically interrogatable component via the complimentary set of data communication interfaces. 2. The method of claim 1 , wherein the subsea device comprises a remotely operated vehicle. 3. The method of claim 1 , wherein the subsea device comprises a subsea field pumping system. 4. The method of claim 1 , wherein the existing power conductor cable comprises a power conductor disposed in an umbilical or tether attached to the subsea device. 5. The method of claim 1 , wherein the data comprise control data and video telemetry data. 6. The method of claim 1 , wherein the complimentary set of data communication interfaces comprise a complimentary set of power line modems. 7. The method of claim 1 , wherein the data communication interfaces are configured to effect unidirectional data transmission. 8. The method of claim 1 , wherein the data communication interfaces are configured to effect bi-directional data transmission. 9. The method of claim 1 , wherein the data communication path comprises a primary data communication pathway between the remotely disposed device controller and the electronically interrogatable component. 10. The method of claim 1 , wherein the data communication path defines a redundant data communications path between the remotely disposed device controller and the electronically interrogatable component, the method further comprising b. automatically switching data transmission from the primary data transmission pathway to data transmission over the power conductor data communication path when the primary data transmission pathway data communication failure is detected. 11. The method of claim 1 , wherein the data communication path defines a redundant data communications path between the remotely disposed device controller and the electronically interrogatable component, the method further comprising: b. manually switching data transmission from the primary data transmission pathway to data transmission over the power conductor data communication path. 12. A system for controlling a subsea device, comprising: a. a complimentary set of data communication interfaces operatively coupled to an electronically interrogatable component of a subsea device and to a separate, remotely disposed device controller that is not part of the subsea device; b. a power conductor cable operatively coupled to the subsea device and the remotely disposed device controller to provide power to the subsea device, the power conductor cable further defining a power conductor data pathway between the complimentary set of data communication interfaces via the complimentary set of data communication interfaces; c. a data transceiver operatively coupled to the electronically interrogatable component and the remotely disposed device controller via the complimentary set of data communication interfaces over the power conductor cable; d. a data transmission failure sensor configured to detect a data transmission failure in a primary data communications pathway; and e. a data path switch operatively in communication with the data transmission failure sensor, the primary data communications pathway, and the data transceiver. 13. The system for controlling a subsea device of claim 12 , wherein the power conductor cable is configured to provide power to the subsea device. 14. The system for controlling a subsea device of claim 12 , wherein the power conductor cable comprises: a. a plurality of power conductor cables; and b. a set of complimentary data communication interfaces associated with a predetermined subset of the plurality of power conductor cables, each power conductor cable of the predetermined subset of the plurality of power conductor cables being operatively coupled to an electronically interrogatable component of the subsea device and the remotely disposed device controller via its associated complimentary set of data communication interfaces. 15. The system for controlling a subsea device of claim 12 , wherein the data transceiver and the complimentary set of data communication interfaces are configured to provide sufficient bandwidth for control data and video data over the power conductor data pathway. 16. The system for controlling a subsea device of claim 12 , wherein the data transceiver and the complimentary set of data communication interfaces are configured to provide either baseband or broadband data transmissions over the power conductor data pathway. 17. The system for controlling a subsea device of claim 12 , wherein the data transceiver and complimentary set of data communication interfaces are configured to provide unidirectional or bidirectional data communications over the power conductor data pathway using a predetermined data transmission protocol. 18. The system for controlling a subsea device of claim 17 , wherein the data transmission protocol comprises Power Line Communications (PLC) or Broadband over Power Lines (BPL).