Resistance estimation of high voltage battery packs during vehicle driving operation

What is claimed is: 1 . A system for monitoring a battery of a vehicle, the system comprising: a current measuring circuit configured to measure a current of the battery comprising a plurality of cell groups connected to each other; a voltage measuring circuit configured to measure voltages of the cell groups; and a controller in communication with current and voltage measuring circuits and configured to: define a plurality operating regions in a current profile of the battery during a drive cycle of the vehicle; filter the current and the voltages measured in the operating regions; calculate internal resistances of the cell groups in the operating regions based on the filtered current and voltages; generate statistical values based on the internal resistances of the cell groups; and determine whether one or more of the cell groups is faulty based on differences between maximum and minimum values of one or more of the statistical values across the cell groups. 2 . The system of claim 1 wherein the controller is configured to determine whether the one or more of the cell groups is faulty based on a highest value of the differences. 3 . The system of claim 1 wherein the controller is configured to select internal resistance data of the cell groups from one of the operating regions corresponding to a highest value of the differences and further configured to at least one of: store the selected internal resistance data in memory of the controller for diagnosing the one or more of the cell groups; send the selected internal resistance data to a remote server for prognostics and determining a trend in a health of the battery; and provide a message regarding the health of the battery based on the selected internal resistance data. 4 . The system of claim 1 wherein the controller is configured to define one of the operating regions when the current is stable for a predetermined time period in the one of the operating regions. 5 . The system of claim 1 wherein the controller is configured to define the operating regions based on the current, temperature, and state of charge of the battery. 6 . The system of claim 1 wherein the controller is configured to determine whether the one or more of the cell groups is faulty regardless of changes in temperature and state of charge of the battery. 7 . The system of claim 1 wherein the controller is configured to define the operating regions based on predetermined ranges of the current, temperature, and state of charge of the battery. 8 . The system of claim 1 wherein the controller is configured to: define a plurality of bands within one of the operating regions based on a predetermined range and a plurality of predetermined ranges of temperature and state of charge of the battery; calculate the internal resistances of the cell groups in the bands based on the filtered current and the voltages; generate individual statistical values for the bands based on the internal resistances of the cell groups in the bands; determine differences between maximum and minimum values of one or more of the individual statistical values; select internal resistance data of the cell groups from one of the bands corresponding to a highest value of the differences; and diagnose a health of the battery based on the selected internal resistance data. 9 . The system of claim 8 wherein the controller is configured to determine whether the one or more of the cell groups is faulty based on the highest value of the differences. 10 . The system of claim 8 wherein the controller is configured to at least one of: store the selected internal resistance data in memory of the controller for diagnosing the one or more cell groups; send the selected internal resistance data to a remote server for prognostics and determining a trend in the health of the battery; and provide a message regarding the health of the battery based on the selected internal resistance data. 11 . A method for monitoring a battery of a vehicle, the method comprising: measuring a current of the battery comprising a plurality of cell groups connected to each other and voltages of the cell groups; defining a plurality operating regions in a current profile of the battery during a drive cycle of the vehicle; filtering the current and the voltages measured in the operating regions; calculating internal resistances of the cell groups in the operating regions based on the filtered current and voltages; generating statistical values based on the internal resistances of the cell groups; and determining whether one or more of the cell groups is faulty based on differences between maximum and minimum values of one or more of the statistical values across the cell groups. 12 . The method of claim 11 further comprising determining whether the one or more of the cell groups is faulty based on a highest value of the differences. 13 . The method of claim 11 further comprising: selecting internal resistance data of the cell groups from one of the operating regions corresponding to a highest value of the differences; and storing the selected internal resistance data in memory of a controller coupled to the battery for diagnosing the one or more of the cell groups; or sending the selected internal resistance data to a remote server for prognostics and determining a trend in a health of the battery; or providing a message regarding the health of the battery based on the selected internal resistance data. 14 . The method of claim 11 further comprising defining one of the operating regions when the current is stable for a predetermined time period in the one of the operating regions. 15 . The method of claim 11 further comprising defining the operating regions based on the current, temperature, and state of charge of the battery. 16 . The method of claim 11 further comprising determining whether the one or more of the cell groups is faulty regardless of changes in temperature and state of charge of the battery. 17 . The method of claim 11 further comprising defining the operating regions based on predetermined ranges of the current, temperature, and state of charge of the battery. 18 . The method of claim 11 further comprising: defining a plurality of bands within one of the operating regions based on a predetermined range and a plurality of predetermined ranges of temperature and state of charge of the battery; calculating the internal resistances of the cell groups in the bands based on the filtered current and the voltages; generating individual statistical values for the bands based on the internal resistances of the cell groups in the bands; determining differences between maximum and minimum values of one or more of the individual statistical values; selecting internal resistance data of the cell groups from one of the bands corresponding to a highest value of the differences; and diagnosing a health of the battery based on the selected internal resistance data. 19 . The method of claim 18 further comprising determining whether the one or more of the cell groups is faulty based on the highest value of the differences. 20 . The method of claim 18 further comprising at least one of: storing the selected internal resistance data in memory of a controller coupled to the battery for diagnosing the one or more cell groups; or sending the selected internal resistance data to a remote server for prognostics and determining a trend in the health of the battery;