Driver circuit for an electric vehicle and a diagnostic method for determining when an electrical short circuit to a ground voltage is present between a contactor coil and a voltage driver

What is claimed is: 1. A driver circuit for an electric vehicle, comprising: a first voltage driver having a first input line and a first output line, the first input line coupled to a microprocessor, the first output line coupled to a first side of a contactor coil of a contactor; a second voltage driver having a second input line, a second output line, and a second voltage sense line; the second input line coupled to the microprocessor, the second output line coupled to a second side of the contactor coil, the second voltage sense line coupled to the microprocessor; the microprocessor configured to generate a first pulse width modulated signal on the first input line to induce the first voltage driver to output a second pulse width modulated signal on the first output line that is received by the first side of the contactor coil to energize the contactor coil; the microprocessor further configured to iteratively measure a voltage on a first side of a contact in the contactor over time to obtain a first plurality of voltage values; the microprocessor further configured to determine a first filtered voltage value based on the first plurality of voltage values; the microprocessor further configured to iteratively measure a voltage on a second side of the contact in the contactor over time to obtain a second plurality of voltage values; the microprocessor further configured to determine a second filtered voltage value based on the second plurality of voltage values; the microprocessor further configured to iteratively measure a voltage on the second voltage sense line over time to obtain a third plurality of voltage values indicative of an amount of electrical current flowing through the second voltage driver; the microprocessor further configured to determine a first filtered current value based on the third plurality of voltage values; and the microprocessor further configured to stop generating the first pulse width modulated signal to de-energize the contactor coil if both the first filtered voltage value is substantially equal to the second filtered voltage value, and the first filtered current value is less than a threshold current value, indicating that an electrical short circuit to a ground voltage is present between the contactor coil and the second voltage driver. 2. The driver circuit of claim 1 , wherein the microprocessor is further configured to generate a first signal on the second input line to induce the second voltage driver to receive the electrical current from the contactor coil on the second output line which energizes the contactor coil. 3. The driver circuit of claim 2 , wherein the microprocessor is further configured to stop generating the first signal to de-energize the contactor coil if both the first filtered voltage value is substantially equal to the second filtered voltage value, and the first filtered current value is less than the threshold current value. 4. The driver circuit of claim 2 , wherein the first signal has a high logic voltage while the first pulse width modulated signal is being generated. 5. The driver circuit of claim 1 , wherein when the first filtered voltage value is substantially equal to the second filtered voltage value the contact has a closed operational position. 6. A diagnostic method for a driver circuit for an electric vehicle, the driver circuit having a first voltage driver, a second voltage driver, and a microprocessor; the first voltage driver having a first input line and a first output line, the first input line coupled to the microprocessor, the first output line coupled to a first side of a contactor coil of a contactor; the second voltage driver having a second input line, a second output line, and a second voltage sense line; the second input line coupled to the microprocessor, the second output line coupled to a second side of the contactor coil, the second voltage sense line coupled to the microprocessor; the method comprising: generating a first pulse width modulated signal on the first input line utilizing the microprocessor to induce the first voltage driver to output a second pulse width modulated signal on the first output line that is received by the first side of the contactor coil to energize the contactor coil; iteratively measuring a voltage on a first side of a contact in the contactor over time to obtain a first plurality of voltage values utilizing the microprocessor; determining a first filtered voltage value based on the first plurality of voltage values utilizing the microprocessor; iteratively measuring a voltage on a second side of the contact in the contactor over time to obtain a second plurality of voltage values utilizing the microprocessor; determining a second filtered voltage value based on the second plurality of voltage values utilizing the microprocessor; iteratively measuring a voltage on the second voltage sense line over time to obtain a third plurality of voltage values indicative of an amount of electrical current flowing through the second voltage driver utilizing the microprocessor; determining a first filtered current value based on the third plurality of voltage values utilizing the microprocessor; and stopping the generating of the first pulse width modulated signal to de-energize the contactor coil if both the first filtered voltage value is substantially equal to the second filtered voltage value, and the first filtered current value is less than a threshold current value, indicating that an electrical short circuit to a ground voltage is present between the contactor coil and the second voltage driver, utilizing the microprocessor. 7. The diagnostic method of claim 6 , further comprising generating a first signal on the second input line utilizing the microprocessor to induce the second voltage driver to receive the electrical current from the contactor coil on the second output line which energizes the contactor coil. 8. The diagnostic method of claim 7 , further comprising stopping the generating of the first signal to de-energize the contactor coil if both the first filtered voltage value is substantially equal to the second filtered voltage value, and the first filtered current value is less than the threshold current value. 9. The diagnostic method of claim 7 , wherein the first signal has a high logic voltage while the first pulse width modulated signal is being generated. 10. The diagnostic method of claim 6 , wherein when the first filtered voltage value is substantially equal to the second filtered voltage value the contact has a closed operational position.