Method for determining battery pack temperature and state of charge

We claim: 1. A battery system comprising: a. a battery pack having a plurality of cells, each of the plurality of cells each having a cell temperature such that the battery pack comprises a plurality of cell temperatures; b. a battery management system coupled to the battery pack and designed to obtain the plurality of cell temperatures from the battery pack and output a single battery temperature (Tbatt), the battery management system defining: i. a high temperature threshold value (Thigh); ii. a low temperature threshold value (Tlow); and iii. a temperature drop value (Tdrop); c. wherein the battery management system is configured to: i. using the plurality of cell temperatures, determine: a maximum value (Tmax) for the plurality of cell temperatures; a minimum value (Tmin) for the plurality of cell temperatures; a mid value (Tmid) for the plurality of cell temperatures; a high-middle value (Thighmid) based on the maximum value (Tmax) and the mid value (Tmid); and a low-middle value (Tlowmid) based on the minimum value (Tmin) and the mid value (Tmid); ii. if a first criteria is satisfied, assign the maximum value (Tmax) to the battery temperature (Tbatt; iii. if a second criteria is satisfied but not the first criteria, assign the high-middle value (Thighmid) to the battery temperature (Tbatt); iv. if a third criteria is satisfied but not the first or second criteria, assign the low-middle value (Tlowmid) to the battery temperature (Tbatt); v. if a fourth criteria is satisfied but not the first, second, or third criteria, assign the minimum value (Tmin) to the battery temperature; and vi. output the single battery temperature (Tbatt). 2. The system of claim 1 , wherein the battery management system is further configured to use the cell temperature of each of the plurality of cells and one or more of the high temperature threshold value (Thigh), the low temperature threshold value (Tlow), and the temperature drop value (Tdrop) to determine if there is a battery fault or error. 3. The system of claim 1 , wherein the battery management system is further configured to assign the minimum value (Tmin) to the battery temperature (Tbatt) when none of the criteria are fulfilled. 4. The system of claim 1 , wherein the battery management system is further configured to assign an average value (Tavg) to the battery temperature (Tbatt) when none of the criteria are fulfilled. 5. The battery system of claim 1 , wherein the battery system is configured to obtain a state of charge from each of the plurality of cells. 6. The battery system of claim 5 , wherein the battery management system is further configured to evaluate the state of charge from each of the plurality of cells against certain criteria. 7. The battery system of claim 6 , wherein the battery management system outputs a single state of charge for the battery. 8. A method of determining battery pack temperature using the system of claim 1 . 9. A system for determining battery pack state of charge, the system comprising: a. a battery management system coupled to the battery pack and designed to obtain a plurality of state of charge readings from a plurality of cells and output a single battery state of charge (SOC), the battery management system defining: i. a high state of charge threshold value (SOChigh); ii. a low state of charge threshold value (SOClow); iii. a state of charge drop value (SOCdrop): b. wherein the battery management system is further configured to: i. if a first criteria is satisfied, assign the maximum value (SOCmax) to the battery state of charge (SOCbatt); ii. if a second criteria is satisfied but not the first criteria, assign a mid-high value (SOCmidhigh) to the battery state of charge (SOCbatt); iii. if a third criteria is satisfied but not the first or second criteria, assign an average value (SOCavg) to the battery state of charge (SOCbatt); iv. if a fourth criteria is satisfied but not the first, second, or third criteria, assign a mid-low (SOCmidlow) value to the battery state of charge (SOCbatt); v. if a fifth criteria is satisfied but not the first, second, third, or fourth criteria, assign a low value (SOClowtto the battery state of charge (SOCbatt); and vi. output the assigned battery state of charge (SOCbatt) as the single battery pack state of charge value. 10. The system of claim 9 , wherein the battery management system is further configured to use the cell state of charge and threshold values to determine if there is a battery fault or error. 11. A method for determining a battery pack temperature, the method comprising: a. assigning a plurality of temperature threshold variables; b. obtaining a plurality of temperature readings from a battery pack; c. evaluating the plurality of temperature readings against a plurality of criteria, including: i. determining if a first criteria is satisfied and, if so, assigning a high value (Thigh) to the battery temperature (Tbatt); ii. determining if a second criteria is satisfied but not the first criteria, and if so, assigning a mid-high value (Tmidhigh) to the battery temperature (Tbatt); iii. determining if a third criteria is satisfied but not the first or second criteria, and if so, assigning an average of the obtained plurality of temperature readings (Tavg) to the battery temperature (Tbatt); iv. determining if a fourth criteria is satisfied but not the first, second, or third criteria, and, if so, assigning a mid-low value (Tmidlow) to the battery temperature (Tbatt); v. determining if a fifth criteria is satisfied but not the first, second, third, or fourth criteria, and, if so, assigning a low value (Tlow) to the battery temperature (Tbatt); and d. outputting the battery temperature (Tbatt). 12. The method of claim 11 further comprising: a. assigning a plurality of state of charge threshold variables; b. obtaining a plurality of state of charge readings from the battery pack; c. evaluating the plurality of state of charge readings against a plurality of criteria; and d. outputting a single battery pack state of charge to a vehicle system. 13. The method of claim 12 , wherein evaluating the plurality of state of charge readings against a plurality of criteria further comprises: a. determining if a first criteria is satisfied and, if so, assigning a maximum value (SOCrnax) to the battery state of charge (SOCbatt); b. determining if a second criteria is satisfied but not the first criteria, and if so, assigning a mid-high value (SOCmidhigh) to the battery state of charge (SOCbatt); c. determining if a third criteria is satisfied but not the first or second criteria, and if so, assigning an average of the obtained state of charge readings SOCavg) to the battery state of charge (SOCbatt); d. determining if the fourth criteria is satisfied but not the first, second, or third criteria, and, if so, assigning a mid-low value (SOCmidlow) to the battery state of charge (SOCbatt). 14. A vehicle system which performs the method of claim 11 . 15. A vehicle having the system of claim 1 . 16. A vehicle having the system of claim 9 . 17. The battery system of claim 1 , wherein the first criteria is whether the maximum value (Tmax) exceeds the high temperature threshold value (Thigh). 18. The battery system of claim 1 , wherein the second criteria is whether the high-middle value (Thighmid) is less than or equal to the maximum value (Tmax) which is also less than the high temperature threshold value (Thigh). 19. The battery system of claim 1 , wherei