System and method for performing diagnostics on a DC-DC converter

What is claimed is: 1. A vehicle diagnostic system comprising: a first DC-DC converter having an input and an output; a second DC-DC converter having an input and an output, wherein the output of the first DC-DC converter is connected to the input of the second DC-DC converter at a first node and the output of the second DC-DC converter is connected to the input of the first DC-DC converter at a second node; a battery connected to a vehicle load and the first node; a redundant power source connected to the second node; and a control module that is configured to initiate operation of the first DC-DC converter and the second DC-DC converter to cause current re-circulation between the first DC-DC converter and the second DC-DC converter and determine an operational parameter based upon an amount of current supplied by at least one of the battery and the redundant power source to the first node and the second node that adjusts for an efficiency loss. 2. The vehicle diagnostic system as recited in claim 1 , wherein the control module is further configured to: compare the operational parameter to a predetermined threshold; and generate a mitigation signal when the operational parameter exceeds the predetermined threshold. 3. The vehicle diagnostic system as recited in claim 2 , wherein the mitigation signal causes a driver warning device to generate an alert. 4. The vehicle diagnostic system as recited in claim 3 , wherein the driver warning device generates a notification comprising at least one of a display, haptic feedback, or a sound. 5. The vehicle diagnostic system recited in claim 3 , wherein the mitigation signal controls operation of a vehicle. 6. The vehicle diagnostic system recited in claim 5 , wherein the mitigation signal controls at least one of a brake actuator module and a steering actuator module. 7. The vehicle diagnostic system as recited in claim 1 , wherein the determined operational parameter includes a power out characteristic and a power in characteristic corresponding to at least one of the first DC-DC converter and the second DC-DC converter. 8. The vehicle diagnostic system as recited in claim 1 , wherein the control module is further configured to determine whether a time counter exceeds a predetermined time threshold and initiates operation of the first DC-DC converter and the second DC-DC converter, wherein the time counter corresponds to a time value since a previous diagnostic event. 9. The vehicle diagnostic system as recited in claim 1 , wherein the first DC-DC converter includes a first sensor and the second DC-DC converter includes a second sensor. 10. A vehicle diagnostic system comprising: a diagnostic module that is configured to determine whether a measured operational parameter corresponding to re-circulated current flow between a first DC-DC converter and a second DC-DC converter exceeds a predetermined operational threshold; a mitigation module that is configured to generate a mitigation signal when the measured operational parameter is greater than the predetermined operational threshold; an activation module that is configured to activate the first DC-DC converter and the second DC-DC converter to cause the re-circulated current flow between the first DC-DC converter and the second DC-DC converter; and a timer module that is configured to determine whether a time counter exceeds a predetermined time threshold, wherein the timer module is configured to initiate the activation module when the time counter exceeds the predetermined time threshold, and wherein the time counter corresponds to a time value since a previous diagnostic event. 11. The vehicle diagnostic system as recited in claim 10 , wherein the measured operational parameter includes a power out characteristic and a power in characteristic corresponding to at least one of the first DC-DC converter and the second DC-DC converter. 12. The vehicle diagnostic system as recited in claim 10 , wherein the measured operational parameter includes a temperature corresponding to at least one of the first DC-DC converter and the second DC-DC converter. 13. The vehicle diagnostic system as recited in claim 10 , wherein the mitigation signal causes a driver warning device to generate an alert. 14. The vehicle diagnostic system as recited in claim 13 , wherein the driver warning device generates a notification comprising at least one of a display, haptic feedback, or a sound. 15. The vehicle diagnostic system recited in claim 10 , wherein the mitigation signal controls operation of the vehicle. 16. The vehicle diagnostic system recited in claim 15 , wherein the mitigation signal controls at least one of a brake actuator module and a steering actuator module.