Energizing an automotive vehicle high voltage bus using a single main contactor

What is claimed is: 1. A method of energizing an automotive vehicle high voltage bus, comprising: (a) closing a precharge contactor along a first lead between a high voltage power source and the bus, with a parallel main contactor being open, with a continuous second lead between the power source and the bus; (b) after (a), closing the main contactor while maintaining the precharge contactor closed; (c) after (b), maintaining the precharge contactor closed for a precharge duration; (d) after (c), opening the precharge contactor, while maintaining the main contactor closed. 2. The method of claim 1 wherein the bus is deenergized by, after (d), opening the main contactor. 3. The method of claim 1 wherein the precharging duration is a function of a voltage differential between the power source and the bus. 4. The method of claim 1 wherein the precharging duration is a predetermined time. 5. The method of claim 1 wherein a condition of the main contactor is monitored by a sensor, the sensor providing data on the condition of the main contactor to a battery control module. 6. The method of claim 5 wherein the battery control module provides real time diagnostics of the condition of the main contactor. 7. The method of claim 5 wherein the high voltage power source is a battery and the battery control module preserves a charge of the battery. 8. The method of claim 1 wherein the high voltage power source is a battery. 9. The method of claim 1 wherein the vehicle bus powers a traction motor to propel the automotive vehicle. 10. An automotive vehicle high voltage bus disconnect circuit, comprising: a high voltage power source; a vehicle electrical bus; a first lead between the power source and bus having a parallel precharge contactor and main contactor, wherein the precharge contactor is configured to close before the main contactor closes and the precharge contactor reopens after the main contactor closes; a continuous second lead between the power source and bus. 11. The circuit of claim 10 wherein the main contactor and the precharge contactor are both closed for a precharge duration. 12. The circuit of claim 11 wherein the precharge duration is a function of a voltage differential between the high voltage power source and the vehicle bus. 13. The circuit of claim 11 wherein the precharge duration is a predetermined time. 14. The circuit of claim 10 further comprising: a sensor monitoring a condition of the main contactor; and a battery control module processing data provided by the sensor. 15. The circuit of claim 14 wherein the battery control module provides real time diagnostics of the condition of the main contactor. 16. The circuit of claim 14 wherein the high voltage power source is a battery and the battery control module preserves a charge of the battery. 17. The circuit of claim 10 wherein the high voltage power source is a battery. 18. The circuit of claim 10 wherein the vehicle bus propels a traction motor to propel the automotive vehicle.