Diagnostic system for a vehicle electrical system having a DC-DC voltage converter and a voltage regulator

What is claimed is: 1. A diagnostic system for a vehicle electrical system having a DC-DC voltage converter and a voltage regulator, the DC-DC voltage converter having a DC-DC voltage converter control circuit coupled between a high voltage switch and a low voltage switch, the voltage regulator having first and second output terminals outputting first and second voltages, respectively, comprising: a microcontroller having a microprocessor and a first analog-to-digital converter, the microprocessor having first and second voltage regulator monitoring applications and first and second diagnostic handler applications; the first analog-to-digital converter measuring the first voltage of the voltage regulator at a first time and generating a first voltage value based on the first voltage; the first voltage regulator monitoring application setting a first voltage regulator status flag equal to a first fault value when the first voltage value is greater than a first maximum voltage value; the first diagnostic handler application transitioning each of the high voltage switch and the low voltage switch to an open operational state when the first voltage regulator status flag is equal to the first fault value; the first analog-to-digital converter measuring the first voltage at a second time and generating a second voltage value based on the first voltage; the second voltage regulator monitoring application setting a second voltage regulator status flag equal to a second fault value when the second voltage value is less than a first minimum voltage value; and the second diagnostic handler application transitioning each of the high voltage switch and the low voltage switch to the open operational state when the second voltage regulator status flag is equal to the second fault value. 2. The diagnostic system of claim 1 , wherein: the microcontroller further having a second analog-to-digital converter, the microprocessor further having a third and fourth voltage regulator monitoring applications and third and fourth diagnostic handler applications; the second analog-to-digital converter measuring the second voltage of the voltage regulator at a third time and generating a third voltage value based on the second voltage; the third voltage regulator monitoring application setting a third voltage regulator status flag equal to a third fault value when the third voltage value is greater than a second maximum voltage value; the third diagnostic handler application transitioning each of the high voltage switch and the low voltage switch to the open operational state when the third voltage regulator status flag is equal to the third fault value; the second analog-to-digital converter measuring the second voltage of the voltage regulator at a fourth time and generating a fourth voltage value based on the second voltage; the fourth voltage regulator monitoring application setting a fourth voltage regulator status flag equal to a fourth fault value when the fourth voltage value is less than a second minimum voltage value; and the fourth diagnostic handler application transitioning each of the high voltage switch and the low voltage switch to the open operational state when the fourth voltage regulator status flag is equal to the fourth fault value. 3. The diagnostic system of claim 2 , wherein the first fault value has a Hamming distance of at least four from the second fault value. 4. The diagnostic system of claim 3 , wherein the third fault value has a Hamming distance of at least four from the fourth fault value. 5. The diagnostic system of claim 1 , wherein the first voltage is substantially 5 Vdc when the voltage regulator is operating as desired, and the second voltage is substantially 3.3 Vdc when the voltage regulator is operating as desired. 6. A diagnostic system for a vehicle electrical system having a DC-DC voltage converter and a voltage regulator, the DC-DC voltage converter having a DC-DC voltage converter control circuit coupled between a high voltage switch and a low voltage switch, the voltage regulator having a first output terminal outputting a first voltage, comprising a microcontroller having a microprocessor and first and second analog-to-digital converters, the microprocessor having first and second voltage regulator monitoring applications and first and second diagnostic handler applications; the first analog-to-digital converter measuring the first voltage of the voltage regulator at a first time and generating a first voltage value based on the first voltage; the first voltage regulator monitoring application setting a first voltage regulator status flag equal to a first fault value when the first voltage value is greater than a first maximum voltage value; the first diagnostic handler application transitioning each of the high voltage switch and the low voltage switch to an open operational state when the first voltage regulator status flag is equal to the first fault value; the second analog-to-digital converter measuring the first voltage at a second time and generating a second voltage value based on the first voltage; the second voltage regulator monitoring application setting a second voltage regulator status flag equal to a second fault value when the second voltage value is greater than a second maximum voltage value, the second maximum voltage value being greater than the first maximum voltage value; and the second diagnostic handler application transitioning each of the high voltage switch and the low voltage switch to the open operational state when the second voltage regulator status flag is equal to the second fault value. 7. The diagnostic system of claim 6 , wherein: the microprocessor having third and fourth voltage regulator monitoring applications and third and fourth diagnostic handler applications; the first analog-to-digital converter measuring the first voltage of the voltage regulator at a third time and generating a third voltage value based on the first voltage; the first voltage regulator monitoring application setting a third voltage regulator status flag equal to a third fault value when the third voltage value is less than a first minimum voltage value; the third diagnostic handler application transitioning each of the high voltage switch and the low voltage switch to the open operational state when the third voltage regulator status flag is equal to the third fault value; the second analog-to-digital converter measuring the first voltage at a fourth time and generating a fourth voltage value based on the first voltage; the fourth voltage regulator monitoring application setting a fourth voltage regulator status flag equal to a fourth fault value when the fourth voltage value is less than a second minimum voltage value, the second minimum voltage value being less than the first minimum voltage value; and the fourth diagnostic handler application transitioning each of the high voltage switch and the low voltage switch to the open operational state when the fourth voltage regulator status flag is equal to the fourth fault value. 8. The diagnostic system of claim 7 , wherein the first fault value has a Hamming distance of at least four from the second fault value. 9. The diagnostic system of claim 7 , wherein the third fault value has a Hamming distance of at least four from the fourth fault value. 10. The diagnostic system of claim 6 , wherein the first voltage is substantially 12 Vdc when the voltage regulator is operating as desired.