Large-format battery management system identifies power degradation

We claim: 1. A method comprising: receiving, via a communication bus and by a master battery pack of a plurality of battery packs, first battery information associated with slave battery packs of the plurality of battery packs; generating, at the master battery pack and based on the first battery information, a configuration list; sending, via the communication bus to a processor of an end device and by the master battery pack, the configuration list; determining, at the master battery pack, a first slave battery pack of the slave battery packs has a lower charge than each of the master battery pack and a second slave battery pack of the slave battery packs; sending, from the master battery pack via the communication bus and to the first slave battery pack, a first instruction for the first slave battery pack to begin charging using power from a power bus; receiving, via the communication bus and by the master battery pack, second battery information associated with the slave battery packs; determining, at the master battery pack, the first slave battery pack has a higher charge than the master battery pack or the second slave battery pack; sending, from the master battery pack via the communication bus and to the first slave battery pack, a second instruction for the first slave battery pack to end charging; receiving, via the communication bus and from one or more slave battery packs, a failure notification; sending, from the master battery pack via the communication bus and to the end device and based on the failure notification, an alert identifying a degradation of power available from the plurality of battery packs; and initiating, based on the failure notification, a balancing technique to balance states of charge (SoC) across the plurality of battery packs. 2. The method of claim 1 , wherein determining the first slave battery pack of the slave battery packs has a lower charge comprises determining the first slave battery pack needs to be balanced in charge relative to one or more of the master battery pack or the second slave battery pack, and the method further comprising: sending, from the master battery pack via the communication bus and to the second slave battery pack, a third instruction for the second slave battery pack to begin discharging power onto the power bus; and sending, from the master battery pack via the communication bus and to the second slave battery pack, a fourth instruction for the second slave battery pack to end discharging power onto the power bus. 3. The method of claim 2 , wherein the first instruction, the second instruction, the third instruction, and the fourth instruction comprise a balancing technique, and wherein the balancing technique comprises converter balancing technique, a direct balancing technique, or a staggered balancing technique. 4. The method of claim 1 , wherein power on the power bus is received from a power bus interface circuit external to the plurality of battery packs. 5. The method of claim 1 , wherein the first battery information and the second battery information comprise SoC data. 6. The method of claim 5 , further comprising: identifying, by the master battery pack and based on the first battery information, a highest SoC value of all of the plurality of battery packs; and comparing, by the master battery pack, the highest SoC value with SoC values of remaining battery packs of the plurality of battery packs. 7. The method of claim 6 , wherein the initiating comprises: initiating, by the master battery pack and based on a SoC difference between one of the plurality of battery packs and another of the plurality of battery packs being greater than a first predetermined value, a converter balancing technique for the one and the another of the plurality of battery packs. 8. The method of claim 7 , further comprising: controlling the one of the plurality of battery packs to discharge over the power bus; and controlling the another of the plurality of battery packs to enable a converter of the another of the plurality of battery packs to receive charge from the power bus. 9. The method of claim 7 , further comprising: initiating, by the master battery pack and based on a SoC difference between the one of the plurality of battery packs and a third battery pack of the plurality of battery packs being greater than a second predetermined value, a converter balancing technique for the one of the plurality of battery packs, the another of the plurality of battery packs, and the third battery pack of plurality of battery packs. 10. The method of claim 9 , wherein the master battery pack is selected from the group of the one of the plurality of battery packs, the another of the plurality of battery packs, and the third battery pack of plurality of battery packs. 11. The method of claim 6 , wherein the initiating comprises: initiating, by the master battery pack and based on a SoC difference between one of the plurality of battery packs and another of the plurality of battery packs being less than a first predetermined value, a direct balancing technique for the one and the another of the plurality of battery packs. 12. The method of claim 11 , further comprising: controlling the one of the plurality of battery packs to discharge over the power bus; and controlling the another of the plurality of battery packs to enable a converter of the another of the plurality of battery packs to receive charge from the power bus. 13. The method of claim 11 , wherein the master battery pack is selected from the group of the one of the plurality of battery packs and the another of the plurality of battery packs. 14. The method of claim 6 , wherein the initiating comprises: initiating, by the master battery pack and based on a SoC difference between one of the plurality of battery packs and another of the plurality of battery packs being less than a first predetermined value, based on a SoC difference between the one of the plurality of battery packs and a third of the plurality of battery packs being greater than a second predetermined value, and based on a SoC difference between the one of the plurality of battery packs and a fourth of the plurality of battery packs being greater than a third predetermined value, a staggered balancing technique for the one, the another, the third, and the fourth of the plurality of battery packs. 15. A method comprising: receiving, via a common communication bus and by a master battery pack of a plurality of battery packs, first battery information associated with a failure of a slave battery pack, wherein the slave battery pack and the master battery pack comprise a plurality of battery packs; generating, at the master battery pack and based on the first battery information, a message for a remote processor, wherein the message identifies a reduction in capacity; sending, via the common communication bus, the message to the remote processor; and initiating, based on the first battery information, a balancing technique to balance SoCs across the plurality of battery packs. 16. A method comprising: receiving, via a first communication bus and by a master battery pack of a plurality of battery packs, first battery information associated with slave battery packs of the plurality of battery packs; generating, at the master battery pack and based on the first battery information, a configuration list; sending, via a second communication bus to a processor of an end device and by the master battery pack, the configuration list; determining, at the master battery pack, a first s