Fault detection in a multi-high voltage bus system

What is claimed is: 1. A vehicle bus system comprising: first and second contactors arranged to share a first terminal of a battery, the first contactor is configured to power a first load when closed and the second contactor being configured to power a second load when closed, and a controller programmed to, after issuing a command to close the first and second contactors, initiate pre-charge of a second terminal of the battery, responsive to both a first voltage across the first contactor exceeding a first closed-state voltage threshold and a second voltage across the second contactor exceeding a second closed-state voltage threshold, and generate a notification and preclude initiation of the pre-charge responsive to at least one of the first and second voltages being less than the corresponding first and second closed-state voltage thresholds. 2. The system of claim 1 , wherein the controller is further programmed to generate the notification and preclude initiation of the pre-charge responsive to one of the first and second voltages exceeding respective first and second open-state voltage thresholds prior to the issuing of the command to close the first and second contactors. 3. The system of claim 2 , wherein the controller is further programmed to generate the notification and preclude initiation of the pre-charge responsive to one of the first and second voltages exceeding the respective first and second open-state voltage thresholds for a period longer than respective first and second opening delays defining respective first and second ages of the first and second contactors, respective first and second cycling counts of the first and second contactors, or age of the battery. 4. The system of claim 3 , wherein the respective first and second opening delays defining the respective first and second ages, the respective first and second cycling counts, or the age of the battery are same. 5. The system of claim 1 , wherein the controller is further programmed to generate a notification and preclude initiation of the pre-charge responsive to, after the commanding to close the first and second contactors, one of the first and second voltages being less than the corresponding first and second closed-state voltage thresholds for a period longer than respective first and second closing delays. 6. The system of claim 5 , wherein the controller is further programmed to modify the respective first and second closing delays defining respective first and second contactor age, cycling count, or age of the battery. 7. The system of claim 5 , wherein the respective first and second closing delays associated with the first and second contactors are same. 8. A method comprising: after commanding by a controller to close first and second contactors arranged to share a first battery terminal and each configured to power a respective load when closed, initiating pre-charge of a second battery terminal responsive to respective voltages across the contactors being greater than corresponding closed-state thresholds, and generating a notification and precluding initiation of the pre-charge responsive to one of the voltages being less than the corresponding closed-state threshold. 9. The method of claim 8 further comprising generating by the controller the notification and precluding initiation of the pre-charge responsive to one of the voltages being greater than an open-state threshold prior to the commanding to close the first and second contactors. 10. The method of claim 9 further comprising generating by the controller the notification and precluding initiation of the pre-charge responsive to one of the voltages being greater than the corresponding open-state thresholds for a period longer than respective opening delays defining respective first and second ages of the first and second contactors, respective first and second cycling counts of the first and second contactors, or age of the battery. 11. The method of claim 10 , wherein the respective opening delays defining the respective first and second ages, the respective first and second cycling counts, or the age of the battery are same. 12. The method of claim 8 further comprising generating by the controller the notification and precluding initiation of the pre-charge in response to, after the commanding to close the first and second contactors, one of the voltages being less than the corresponding closed-state threshold for a period longer than respective closing delays. 13. The method of claim 12 further comprising modifying by the controller the respective closing delays defining respective first and second ages of the first and second contactors, respective first and second cycling counts of the first and second contactors, or age of the battery. 14. The method of claim 12 , wherein the respective closing delays of the first and second contactors are same. 15. A vehicle bus controller comprising: input channels configured to receive first and second signals indicative of first and second voltages across respective first and second contactors, wherein the first and second voltages are arranged to share a first terminal of a traction battery, and wherein the first and second contactors, when closed, are configured to power corresponding first and second loads; output channels configured to command to close the first and second contactors, command to initiate pre-charge of a second terminal of the traction battery, and provide a notification; and control logic configured to, after issuance of the command to close the first and second contactors, command to initiate pre-charge of the second terminal responsive to the first and second voltages being greater than corresponding first and second closed-state voltage thresholds of the first and second contactors, and generate the notification responsive to one of the first and second voltages being less than the corresponding first and second closed-state voltage thresholds for a period longer than respective first and second closing delays associated with the first and second contactors. 16. The controller of claim 15 , wherein the respective first and second closing delays are same. 17. The controller of claim 15 , wherein the control logic is further configured to generate the notification and preclude initiation of the pre-charge responsive to one of the first and second voltages exceeding respective first and second open-state voltage thresholds for a period longer than respective first and second opening delays of the first and second contactors prior to the issuance of the command to close the first and second contactors.