Electric current protection circuit and method of using same

What is claimed is: 1. A protection device for protecting an electrical system in a vehicle, the electrical system including a battery pack having at least one contactor, and a high voltage bus connected to the battery pack, the protection device comprising: a microcontroller which generates test pulses at a pulse output terminal thereof and includes a sense input terminal, the microcontroller having additional output terminals coupled to a control terminal of the at least one contactor; a first capacitor having a first terminal coupled to a first terminal of the at least one contactor; a second capacitor having a first terminal coupled to a second terminal of the at least one contactor; and circuitry coupled between the microcontroller and the first and second capacitors, the circuitry having an input terminal connected to the pulse output terminal of the microcontroller and an output terminal connected to the sense input terminal of the microcontroller, the circuitry reflecting the test pulses to the sense input terminal of the microcontroller if each contactor is open when the microcontroller applies a contactor opening voltage to the control terminal of the at least one contactor to open same, and presenting a signal different from the reflected test pulses to the sense input terminal of the microcontroller if any contactor is welded shut when the microcontroller applies the contactor opening voltage to the control terminal of the at least one contactor. 2. The protection device of claim 1 , wherein the circuitry is powered by a voltage supply, and the circuitry charges the first and second capacitors when any contactor is closed and does not charge the first and second capacitors when each contactor is open, the first and second capacitors being coupled to the sense input terminal of the microcontroller such that a voltage at the sense input terminal of the microcontroller corresponds to a voltage across one or more of the first capacitor and the second capacitor. 3. The protection device of claim 2 , wherein the circuitry comprises: a first transistor having a first conduction terminal coupled to the voltage supply, a second conduction terminal coupled to a second terminal of the first capacitor, and a control terminal; a second transistor having a first conduction terminal coupled to the control terminal of the first transistor, a second conduction terminal coupled to a second terminal of the second capacitor, and a control terminal coupled to the pulse output terminal of the microcontroller; and a resistor coupled between the second terminal of the first capacitor and a reference voltage, a voltage appearing at the second terminal of the first capacitor being coupled to the sense input terminal of the microcontroller. 4. The protection device of claim 3 , wherein when each contactor is open, the first capacitor and the second capacitor are disconnected from each other and creates an open circuit along an electrical path defined along the second conduction terminal of the first transistor, the first capacitor, the second capacitor and the reference voltage, and when any contactor is closed, the electrical path is closed. 5. The protection device of claim 2 , wherein the microcontroller is configured such that, based upon the voltage at the sense input terminal of the microcontroller, the microcontroller determines whether any contactor is welded closed and whether each contactor is open. 6. The protection device of claim 5 , wherein based upon the voltage at the sense input terminal of the microcontroller, the microcontroller is further configured to determine whether any current leakage exists across the at least one contactor. 7. The protection device of claim 6 , wherein based upon the voltage at the sense input terminal of the microcontroller, the microcontroller is further configured to determine an amount of current leakage across at least one contactor. 8. The protection device of claim 1 , wherein the at least one contactor of the battery pack comprises a plurality of contactors, each contactor having a first terminal coupled to the first terminal of the first capacitor and a second terminal coupled to the first terminal of the second capacitor. 9. The protection device of claim 1 , wherein when each contactor is open, the first capacitor and the second capacitor are disconnected from each other and creates an open circuit along an electrical path defined along a power supply which powers the circuitry, the first capacitor, the second capacitor and a ground reference, and when any contactor is closed, the electrical path is closed. 10. A protection device for protecting an electrical system in a vehicle, the electrical system including a battery pack having at least one contactor, and a high voltage bus connected to the battery pack, the protection device comprising: a microcontroller generates test pulses at a pulse output terminal thereof and includes a sense input terminal, the microcontroller having additional output terminals coupled to a control terminal of the at least one contactor; a first capacitor having a first terminal coupled to a first terminal of the at least one contactor; a second capacitor having a first terminal coupled to a second terminal of the at least one contactor; and circuitry coupled between the microcontroller and the first and second capacitors, the circuitry having an input terminal connected to the pulse output terminal of the microcontroller and an output terminal connected to the sense input terminal of the microcontroller, the circuitry reflecting the test pulses to the sense input terminal of the microcontroller if each contactor is open when the microcontroller applies a contactor opening voltage to the control terminal of the at least one contactor to open same, and presenting a signal different from the reflected test pulses to the sense input terminal of the microcontroller if any contactor is welded shut when the microcontroller applies the contactor opening voltage to the control terminal of the at least one contactor, the first and second capacitors being series connected and the at least one contactor providing an electrical connection between the first and second capacitors when the at least one contactor is closed and an open connection between the first and second capacitors when each contactor is opened. 11. The protection device of claim 10 , wherein the circuitry is powered by a voltage supply, and the circuitry charges the first and second capacitors to at or near the voltage supply when any contactor is closed and does not charge the first and second capacitors when each contactor is open, the first and second capacitors being coupled to the sense input terminal of the microcontroller such that a voltage at the sense input terminal of the microcontroller corresponds to a voltage across one or more of the first capacitor and the second capacitor. 12. The protection device of claim 11 , wherein the circuitry comprises: a first transistor having a first conduction terminal coupled to the voltage supply, a second conduction terminal coupled to a second terminal of the first capacitor, and a control terminal; a second transistor having a first conduction terminal coupled to the control terminal of the first transistor, a second conduction terminal coupled to a second terminal of the second capacitor, and a control terminal coupled to the pulse output terminal of the microcontroller; and a resistor coupled between the second terminal of the first capacitor and a reference voltage, a voltage appearing at the second terminal of the first capacitor being coupled to the sense input terminal of the microcontroller.