System and method for derating a power limit associated with a battery pack

What is claimed is: 1. A system for derating a power limit associated with a battery pack, comprising: a battery pack voltage sensor configured to measure a first battery pack output voltage of the battery pack at a first time; a microprocessor programmed to operably communicate with the battery pack voltage sensor, the microprocessor further programmed to determine an initial power limit of the battery pack based on at least one operational parameter of the battery pack; the microprocessor further programmed to determine whether the first battery pack output voltage is less than a first voltage; the microprocessor further programmed to determine whether the first battery pack output voltage is greater than a threshold battery pack voltage, if the first battery pack output voltage is less than the first voltage; the threshold battery pack voltage being less than the first voltage, the threshold battery pack voltage being greater than zero volts; the microprocessor further programmed to determine whether the initial power limit is equal to a minimum power limit of the battery pack, if the first battery pack output voltage is greater than the threshold battery pack voltage and less than the first voltage; the microprocessor further programmed to determine a first power limit of the battery pack that is less than the initial power limit, if the first battery pack output voltage is greater than the threshold battery pack voltage and less than the first voltage, and the initial power limit is not equal to the minimum power limit of the battery pack; the microprocessor further programmed to transmit a first message having the first power limit on a communication bus; and a control circuit configured to selectively electrically decouple the battery pack from a vehicle inverter if the battery pack output voltage is greater than the first voltage, in response to a control signal from the microprocessor. 2. The system of claim 1 , wherein: the battery pack voltage sensor further configured to measure a second battery pack output voltage of the battery pack at a second time, the second time being after the first time; the microprocessor further programmed to determine whether the second battery pack output voltage is greater than the threshold battery pack voltage; the microprocessor further programmed to determine a second power limit of the battery pack that is less than the first power limit if the second battery pack output voltage is greater than the threshold battery pack voltage; and the microprocessor further programmed to transmit a second message having the second power limit on the communication bus. 3. The system of claim 2 , wherein: the battery pack voltage sensor further configured to measure a third battery pack output voltage of the battery pack at a third time, the third time being after the second time; the microprocessor further programmed to determine whether the third battery pack output voltage is greater than the threshold battery pack voltage; the microprocessor further programmed to set a third power limit of the battery pack equal to the second power limit, if the third battery pack output voltage is greater than the threshold battery pack voltage, and if the second power limit is equal to a minimum power limit; and the microprocessor further programmed to transmit a third message having the third power limit on the communication bus. 4. The system of claim 2 , wherein: the battery pack voltage sensor further configured to measure a third battery pack output voltage of the battery pack at a third time, the third time being after the second time; the microprocessor further programmed to determine whether a third battery pack output voltage is greater than the threshold battery pack voltage; the microprocessor further programmed to determine a third power limit of the battery pack that is greater than the second power limit if the third battery pack output voltage is not greater than the threshold battery pack voltage; and the microprocessor further programmed to transmit a third message having the third power limit on the communication bus. 5. The system of claim 4 , wherein: the battery pack voltage sensor further configured to measure a fourth battery pack output voltage of the battery pack at a fourth time, the fourth time being after the third time; the microprocessor further programmed to determine whether the fourth battery pack output voltage is greater than the threshold battery pack voltage; the microprocessor further programmed to determine a fourth power limit of the battery pack that is greater than the third power limit if the fourth battery pack output voltage is not greater than the threshold battery pack voltage; and the microprocessor further programmed to transmit a fourth message having the fourth power limit on the communication bus. 6. The system of claim 5 , wherein: the battery pack voltage sensor further configured to measure a fifth battery pack output voltage of the battery pack at a fifth time, the fifth time being after the fourth time; the microprocessor further programmed to determine whether the fifth battery pack output voltage is greater than the threshold battery pack voltage; the microprocessor further programmed to determine a fifth power limit of the battery pack that is less than the fourth power limit, if the fifth battery pack output voltage is greater than the threshold battery pack voltage; and the microprocessor further programmed to transmit a fifth message having the fifth power limit on the communication bus. 7. The system of claim 1 , further comprising a vehicle controller programmed to receive the first message from the communication bus, the vehicle controller further programmed to command an inverter to extract an amount of power from the battery pack equal to the first power limit in response to the first message. 8. A method for derating a power limit associated with a battery pack, comprising: determining an initial power limit of the battery pack based on at least one operational parameter of the battery pack utilizing a microprocessor; Determining whether a first battery pack output voltage is less than a first voltage, utilizing the microprocessor; determining whether the first battery pack output voltage of the battery pack is greater than a threshold battery pack voltage, if the first battery pack output voltage is less than the first voltage, utilizing the microprocessor; the threshold battery pack voltage being less than the first voltage, the threshold battery pack voltage being greater than zero volts; determining whether the initial power limit is equal to a maximum power limit of the battery pack, if the first battery pack output voltage is greater than the threshold battery pack voltage and less than the first voltage, utilizing the microprocessor; determining a first power limit of the battery pack that is less than the initial power limit if the first battery pack output voltage is greater than a threshold battery pack voltage and less than the first voltage, and the initial power limit is not equal to the minimum power limit of the battery pack utilizing the microprocessor; and transmitting a first message having the first power limit on a communication bus utilizing the microprocessor. 9. The method of claim 8 , further comprising: determining whether a second battery pack output voltage of the battery pack at a second time is greater than the threshold battery pack voltage, utilizing the microprocessor, the second time being after the first time; determining a second power limit of the battery pack that is less than the first power limit if the second battery pack output voltage is greater than the threshold b