Superconducting coil system and methods of assembling the same

What is claimed is: 1. A superconducting magnet apparatus comprising: a power source configured to generate a current; a first switch coupled in parallel to said power source; a second switch coupled in series to said power source; a coil coupled in parallel to said first switch and said second switch; and a passive quench protection device coupled to said coil and configured to by-pass the current around said coil and to decouple said coil from said power source when said coil experiences a quench; wherein said coil comprises a plurality of coils coupled in series; and further comprising: a plurality of diodes coupled in series to the respective plurality of coils; and a plurality of switches coupled to said plurality of diodes, wherein said switches are configured to selectively open and close to couple and decouple said plurality of coils to said power source. 2. The superconducting magnet apparatus of claim 1 , wherein said passive quench protection device is coupled in parallel to said coil and comprises a diode coupled in parallel to said coil. 3. The superconducting magnet apparatus of claim 1 , wherein said passive quench protection device comprises a diode and a resistor coupled in parallel to said coil. 4. The superconducting magnet apparatus of claim 1 , wherein said first switch comprises back-to-back diodes. 5. The superconducting magnet apparatus of claim 1 , wherein said first switch comprises a non-persistent switch. 6. The superconducting magnet apparatus of claim 1 , wherein said coil comprises a first coil and a second coil and said passive quench protection device comprises a resistor coupled in parallel to said first and second coils. 7. The superconducting magnet apparatus of claim 1 , wherein said passive quench protection device comprises a heater coupled in parallel to said coil. 8. The superconducting magnet apparatus of claim 1 , wherein said passive quench protection device is configured to open said second switch and close said first switch when said coil experiences the quench. 9. The superconducting magnet apparatus of claim 1 , wherein said first switch comprises a normally open switch and said second switch comprises a normally closed switch. 10. A wind turbine, comprising: a tower; a nacelle coupled to said tower; and a superconducting magnet apparatus coupled to said nacelle and comprising: a power source configured to generate a current; a first switch coupled in parallel to said power source; a second switch coupled in series to said power source; a coil coupled in parallel to said first switch and said second switch; and a passive quench protection device coupled in parallel to said coil and configured to by-pass the current around said coil and to disconnect said coil from said power source when said coil experiences a quench; wherein said coil comprises a plurality of coils coupled in series; and further comprising: a plurality of diodes coupled in series to the respective plurality of coils; and a plurality of switches coupled to said plurality of diodes, wherein said switches are configured to selectively open and close to couple and decouple said plurality of coils to said power source. 11. The wind turbine of claim 10 , wherein said passive quench protection device comprises at least one of a diode and a resistor coupled in parallel to said coil; a resistor coupled in parallel to said coil; and a heater coupled in parallel to said coil. 12. The wind turbine of claim 10 , wherein said coil comprises a smaller resistance than a resistance of said passive quench protection device. 13. The wind turbine of claim 10 , wherein said coil in quench comprises a larger resistance than a resistance of said passive quench protection device. 14. The wind turbine of claim 10 , wherein said passive quench protection device is configured to open second switch and sequentially switch out adjacent coils of said coil in quench. 15. A method of assembling a superconducting magnet apparatus, said method comprising: coupling a first switch in parallel to the power source; coupling a second switch in series to a power source; coupling a coil in parallel to the first switch and the second switch; and coupling a passive quench protection device to the coil; wherein said coil comprises a plurality of coils coupled in series; and further comprising: a plurality of diodes coupled in series to the respective plurality of coils; and a plurality of switches coupled to said plurality of diodes, said switches are configured to selectively open and close to couple and decouple said plurality of coils to said power source. 16. The method of claim 15 , wherein coupling the passive quench protection device comprises coupling a diode and resistor in parallel to the coil. 17. The method of claim 15 , wherein coupling the passive quench protection device comprises coupling a shunt resistor in parallel to the coil. 18. The method of claim 15 , wherein coupling the passive quench protection device comprises coupling a heater to the coil. 19. The apparatus of claim 1 , wherein the passive quench device is configured to employ the natural rate losses in adjacent and/or surrounding coils, so as to force the adjacent and/or surrounding coils of the coil experiencing a quench, to a normal state.