Systems and methods for estimating battery pack capacity during charge sustaining use

The invention claimed is: 1. A method of estimating a capacity of a battery pack performed by a system comprising a processor and a non-transitory computer-readable storage medium storing instructions that cause the processor to perform the method, the method comprising: receiving, from a current sensor configured to measure current information of the battery pack, charge throughput data; integrating the received charge throughput data; storing the integrated received charge throughput data in a first data bucket of the non-transitory computer-readable storage medium associated with increasing charge throughput data or a second data bucket of the non-transitory computer-readable storage medium associated with decreasing charge throughput data based on a determination of whether the received charge throughput data comprises increasing charge throughput data or decreasing charge throughput data; receiving voltage-based state of charge movement data associated with the battery pack; integrating the received voltage-based state of charge movement data; storing the integrated voltage-based state of charge movement data in a third data bucket of the non-transitory computer-readable storage medium associated with increasing voltage-based state of charge movement data or a fourth data bucket of the non-transitory computer-readable storage medium associated with decreasing voltage-based state of charge movement data based on a determination of whether the received voltage-based state of charge movement data comprises increasing voltage-based state of charge movement data or decreasing voltage-based state of charge movement data; determining an estimated charge capacity of the battery pack based on data stored in the first data bucket and the third data bucket; and determining an estimated discharge capacity of the battery pack based on data stored in the second data bucket and the fourth data bucket. 2. The method of claim 1 , wherein the method further comprises: determining that a certain threshold amount of data is stored in the first data bucket and the third data bucket prior to determining the estimated charge capacity of the battery pack. 3. The method of claim 1 , wherein the method further comprises: determining that a certain threshold amount of data is stored in the second data bucket and the fourth data bucket prior to determining the estimated discharge capacity of the battery pack. 4. The method of claim 1 , wherein determining the estimated charge capacity of the battery pack comprises dividing a sum of the data stored in the first data bucket by a sum of the data stored in the third data bucket. 5. The method of claim 1 , wherein determining the estimated discharge capacity of the battery pack comprises dividing a sum of the data stored in the second data bucket by a sum of the data stored in the fourth data bucket. 6. The method of claim 1 , wherein first, second, third, and fourth data buckets each comprise a plurality of data bins. 7. The method of claim 6 , wherein the method further comprises: determining that a first data bin of the plurality of data bins and a second data bin of the plurality of data bins are both full, the first data bin storing data received prior to data stored in the second data bin; and clearing, based on the determination, the contents of the first data bin. 8. A system comprising: a battery pack; a first sensor configured to provide charge throughput data associated with the battery pack; a second sensor configured to provide voltage-based state of charge movement data associated with the battery pack; a computer-readable storage medium; and battery control electronics communicatively coupled to the first and second sensors and the computer-readable storage medium, the battery control electronics being configured to: receive the charge throughput data; integrate the received charge throughput data; store the integrated received charge throughput data in a first data bucket of the computer-readable storage medium associated with increasing charge throughput data or a second data bucket of the computer-readable storage medium associated with decreasing charge throughput data based on a determination of whether the received charge throughput data comprises increasing charge throughput data or decreasing charge throughput data; receive the voltage-based state of charge movement data; integrate the received voltage-based state of charge movement data; store the integrated voltage-based state of charge movement data in a third data bucket of the computer-readable storage medium associated with increasing voltage-based state of charge movement data or a fourth data bucket of the computer-readable storage medium associated with decreasing voltage-based state of charge movement data based on a determination of whether the received voltage-based state of charge movement data comprises increasing voltage-based state of charge movement data or decreasing voltage-based state of charge movement data; determine an estimated charge capacity of the battery pack based on data stored in the first data bucket and the third data bucket; and determine an estimated discharge capacity of the battery pack based on data stored in the second data bucket and the fourth data bucket. 9. The system of claim 8 , wherein the battery control electronics are further configured to: determine that a certain threshold amount of data is stored in the first data bucket and the third data bucket prior to determining the estimated charge capacity of the battery pack. 10. The system of claim 8 , wherein the battery control electronics are further configured to: determine that a certain threshold amount of data is stored in the second data bucket and the fourth data bucket prior to determining the estimated discharge capacity of the battery pack. 11. The system of claim 8 , wherein determining the estimated charge capacity of the battery pack comprises dividing a sum of the data stored in the first data bucket by a sum of the data stored in the third data bucket. 12. The system of claim 8 , wherein determining the estimated discharge capacity of the battery pack comprises dividing a sum of the data stored in the second data bucket by a sum of the data stored in the fourth data bucket. 13. The system of claim 8 , wherein first, second, third, and fourth data buckets each comprise a plurality of data bins. 14. The system of claim 13 , wherein the battery control electronics are further configured to: determine that a first data bin of the plurality of data bins and a second data bin of the plurality of data bins are both full, the first data bin storing data received prior to data stored in the second data bin; and empty, based on the determination, the contents of the first data bin. 15. A non-transitory computer-readable medium comprising instructions that, when executed by a processor, cause the processor to perform a method for estimating a capacity of a battery pack comprising: receiving charge throughput data from a current sensor configured to measure current information associated with the battery pack; integrating the received charge throughput data; storing the integrated received charge throughput data in a first data bucket associated with increasing charge throughput data or a second data bucket associated with decreasing charge throughput data based on a determination of whether the received charge throughput data comprises increasing charge throughput data or decreasing charge throughput data; receiving voltage-based state of charge movement data associated with the ba