High-voltage component protection during vehicle recharging

What is claimed is: 1. A protection system for a high-voltage component comprising: a switching circuit couplable to a plurality of battery packs and the high-voltage component, and configured to: change a variable arrangement of the plurality of battery packs between a parallel arrangement and a series arrangement; and transfer power from the plurality of battery packs to the high-voltage component, wherein each of the plurality of battery packs operates at a battery voltage, the high-voltage component operates at the battery voltage, and the high-voltage component includes an input node and a floating chassis ground; and a protection controller coupled to the switching circuit and the high-voltage component, and configured to: command the switching circuit into the series arrangement in response to a first recharging session; command a first flow of a first current in the first recharging session; measure a first voltage between the input node and the floating chassis ground of the high-voltage component during the first recharging session; advance a timer while the first voltage indicates a presence of an improper voltage between the input node and the floating chassis ground; and cancel the first recharging session in response to the presence of the improper voltage for greater than an exposure time, wherein the first recharging session provides a first direct-current fast-charging voltage to the plurality of battery packs in the series arrangement, and the first direct-current fast-charging voltage is greater than the battery voltage. 2. The protection system according to claim 1 , wherein the protection controller is further configured to: command the switching circuit into the parallel arrangement after the first charging session has been cancelled; and maintain the parallel arrangement of the plurality of battery packs while the protection system has been moved less than a threshold distance since the first recharging session was cancelled due to the improper voltage. 3. The protection system according to claim 2 , wherein the protection controller is further configured to enable the series arrangement of the plurality of battery packs in response to the protection system being moved greater than the threshold distance since the first recharging session was cancelled due to the improper voltage. 4. The protection system according to claim 3 , wherein the protection controller is further configured to command a flow of current in a second recharging session while the plurality of battery packs are in the parallel arrangement, the second recharging session provides a second direct-current fast-charging voltage to the plurality of battery packs in the parallel arrangement, and the second direct-current fast-charging voltage approximately matches the battery voltage. 5. The protection system according to claim 1 , wherein the protection controller is further configured to prohibit the series arrangement of the plurality of battery packs in response to the timer exceeding a cumulative time. 6. The protection system according to claim 5 , further comprising a maintenance port coupled to the protection controller and configured to receive a notice that service has been performed on the high-voltage component, wherein the protection controller is further configured to enable the series arrangement of the plurality of battery packs in response to the notice. 7. The protection system according to claim 5 , wherein the cumulative time is approximately 600 seconds, and the exposure time is approximately 5 seconds. 8. The protection system according to claim 1 , wherein: the input node of the high-voltage component includes a positive input node and a negative input node; the first voltage includes a positive first voltage between the positive input node and the floating chassis ground, and a negative first voltage between the negative input node and the floating chassis ground; and the presence of the improper voltage is determined by the protection controller based on one or more of the positive first voltage and the negative first voltage. 9. The protection system according to claim 1 , wherein the battery voltage is approximately 400 volts, and the first direct-current fast-charging voltage is approximately 800 volts. 10. A method for fault detection while recharging a vehicle comprising: changing a variable arrangement of a plurality of battery packs of the vehicle from a parallel arrangement to a series arrangement in response to a first recharging session, wherein each one of the plurality of battery packs operates at a battery voltage; transferring power from the plurality of battery packs to a high-voltage component of the vehicle, wherein the high-voltage component operates at the battery voltage, and includes an input node and a floating chassis ground; commanding a first flow of a first current in the first recharging session with a protection controller of the vehicle, wherein the first recharging session provides a first direct-current fast-charging voltage to the plurality of battery packs in the series arrangement, and the first direct-current fast-charging voltage is greater than the battery voltage; measuring a first voltage between the input node and the floating chassis ground of the high-voltage component during the first recharging session; advancing a timer while the first voltage indicates a presence of an improper voltage between the input node and the floating chassis ground of the high-voltage component; and cancelling the first recharging session in response to the presence of the improper voltage at the high-voltage component for greater than an exposure time. 11. The method according to claim 10 , further comprising: maintaining the parallel arrangement of the plurality of battery packs while the vehicle has been driven less than a threshold distance since the first recharging session was cancelled due to the improper voltage. 12. The method according to claim 11 , further comprising: enabling the series arrangement of the plurality of battery packs in response to the vehicle being driven greater than the threshold distance since the first recharging session was cancelled due to the improper voltage. 13. The method according to claim 12 , further comprising: commanding a second flow of a second current in a second recharging session while the plurality of battery packs are in the parallel arrangement, wherein the second recharging session provides a second direct-current fast-charging voltage to the plurality of battery packs in the parallel arrangement, and the second direct-current fast-charging voltage approximately matches the battery voltage. 14. The method according to claim 10 , further comprising: prohibiting the series arrangement of the plurality of battery packs in response to the timer exceeding a cumulative time. 15. The method according to claim 14 , further comprising: enabling the series arrangement of the plurality of battery packs in response to a notice that service has been performed on the vehicle. 16. The method according to claim 14 , wherein the cumulative time is approximately 600 seconds, and the exposure time is approximately 5 seconds. 17. A vehicle comprising: a plurality of battery packs, each operating at a battery voltage; a high-voltage component having an input node and a floating chassis ground, and operating at the battery voltage; a switching circuit coupled to the plurality of battery packs and the high-voltage component, couplable to a charging station, and configured to: change