System and method of cell block voltage analytics to improve balancing effectiveness and identify self-discharge rate

What is claimed is: 1. A battery management unit comprising: a memory including a cell charge history table to store state of charge information for a first battery cell in a battery cell stack; and a controller programmed to: determine, during a first discharge cycle of the battery cell stack, a first discharge rate for the first battery cell; store, in the cell charge history table, a first entry that includes the first discharge rate; determine, during a second discharge cycle of the first battery cell stack, a second discharge rate for the first battery cell; store, in the cell charge history table, a second entry that includes the second discharge rate; identify that the second discharge rate is greater than the first discharge rate; and provide, to a host system coupled to the battery management unit, a first indication that the second discharge rate is greater than the first discharge rate. 2. The battery management unit of claim 1 , wherein the controller is further programmed to: in identifying that the second discharge rate is greater than the first discharge rate, identify that the second discharge rate is greater than a discharge rate alert threshold; and provide, to the host system, a second indication that the second discharge rate is greater than the discharge rate alert threshold. 3. The battery management unit of claim 2 , wherein the discharge rate alert threshold is less than a discharge rate failure threshold. 4. The battery management unit of claim 1 , wherein the controller is further programmed to: in identifying that the second discharge rate is greater than the first discharge rate, identify that the second discharge rate is greater than the first discharge rate by an amount that is greater than a discharge rate difference threshold; and provide, to the host system, a second indication that the second discharge rate is greater than the first discharge rate by an amount that is greater than the discharge rate difference threshold. 5. The battery management unit of claim 1 , wherein the controller is further programmed to: determine, during a first charge cycle of the battery cell stack, that the first battery cell has reached an over-voltage threshold before a second battery in the battery cell stack; determine, during the first discharge cycle, that the first battery cell has reached an under-voltage threshold before the second battery cell; identify the first battery cell as having a lower capacity than the second battery cell based upon the determination that the first battery cell reached the over-voltage threshold before the second battery cell and upon the determination that the first battery cell reached the under-voltage threshold before the second battery cell; and prevent, during a second charge cycle, cell balancing on the first battery cell based upon the first battery cell being identified as having the lower capacity than the second battery cell. 6. The battery management unit of claim 5 , wherein the controller is further programmed to: store, in the cell charge history table, a third entry that includes a first state of charge of the first battery cell when the first battery cell reached the over-voltage threshold and a first timestamp; and store, in the cell charge history table, a fourth entry that includes a second state of charge of the first battery cell when the first battery cell reached the under-voltage threshold and a second timestamp, wherein identifying the first battery cell as having the lower capacity is further based upon the third and fourth entries. 7. The battery management unit of claim 6 , wherein the controller is further programmed to: determine, during the first charge cycle, that the second battery cell has not reached an over-voltage hysteresis threshold in response to determining that the first battery cell has reached the over-voltage threshold; and perform, during the first charge cycle, cell balancing on the first battery cell in response to determining that the second battery cell has not reached the over-voltage hysteresis threshold. 8. The battery management unit of claim 7 , wherein the controller is further programmed to: store, in the cell charge history table, a fifth entry that includes a third state of charge of the second battery cell when the first battery cell reached the over-voltage threshold and a third timestamp, wherein directing the cell balancing module to perform cell balancing on the first battery cell is in further response to the fifth entry. 9. A method comprising: determining, by a controller of a battery management unit, during a first discharge cycle of a battery cell stack, a first discharge rate for a first battery cell in the battery cell stack; storing, in a cell charge history table of a memory of the battery management unit, a first entry that includes the first discharge rate; determining, by the controller, during a second discharge cycle of the first battery cell stack, a second discharge rate for the first battery cell; storing, in the cell charge history table, a second entry that includes the second discharge rate; identifying, by the controller, that the second discharge rate is greater than the first discharge rate; and providing, to a host system coupled to the battery management unit, a first indication that the second discharge rate is greater than the first discharge rate. 10. The method of claim 9 , further comprising: in identifying that the second discharge rate is greater than the first discharge rate, identifying that the second discharge rate is greater than a discharge rate alert threshold; and providing, to the host system, a second indication that the second discharge rate is greater than the discharge rate alert threshold. 11. The method of claim 10 , wherein the discharge rate alert threshold is less than a discharge rate failure threshold. 12. The method of claim 9 , further comprising: in identifying that the second discharge rate is greater than the first discharge rate, identifying that the second discharge rate is greater than the first discharge rate by an amount that is greater than a discharge rate difference threshold; and providing, to the host system, a second indication that the second discharge rate is greater than the first discharge rate by an amount that is greater than the discharge rate difference threshold. 13. The method of claim 9 , further comprising: determining, during a first charge cycle of the battery cell stack, that the first battery cell has reached an over-voltage threshold before a second battery in the battery cell stack; determining, during the first discharge cycle, that the first battery cell has reached an under-voltage threshold before the second battery cell; identifying the first battery cell as having a lower capacity than the second battery cell based upon the determination that the first battery cell reached the over-voltage threshold before the second battery cell and upon the determination that the first battery cell reached the under-voltage threshold before the second battery cell; and preventing, during a second charge cycle, cell balancing on the first battery cell based upon the first battery cell being identified as having the lower capacity than the second battery cell. 14. The method of claim 13 , further comprising: storing, in the cell charge history table, a third entry that includes a first state of charge of the first battery cell when the first battery cell reached the over-voltage threshold and a first timestamp; and storing, in the cell charge history table, a fourth entry that includes a second state