String current limited battery charging control

What is claimed is: 1. A battery system, comprising: a plurality of battery strings, each battery string including two or more batteries or battery cells connected in a series or parallel configuration; a plurality of battery string contactors, each battery string contactor associated with at least one of the plurality of battery strings; a charger operable to provide a charging voltage to each of the plurality of battery strings via the battery string contactor associated with the battery string, wherein the charger comprises a smart charger; one or more control devices, the one or more control devices configured to control a charging output of the charger based at least in part on a string current of at least one of the plurality of battery strings, wherein the charging output is set to a minimum string voltage and increases based on feedback from the plurality of battery strings; wherein the one or more control devices are configured to control the plurality of battery string contactors to couple each of the battery strings to the charger when a charging voltage of the charger exceeds a battery string voltage associated with the battery string; wherein the one or more control devices are configured to control the plurality of battery string contactors to sequentially couple each of the plurality of battery strings to the charger when the charging voltage exceeds the battery string voltage associated with the battery string; and wherein the controller is configured to sequentially couple the charger to the plurality of battery strings in ascending order of battery string voltage. 2. The battery system of claim 1 , wherein the one or more control devices are configured to control the charging output of the charger based at least in part on a string current limit. 3. The system of claim 1 , wherein the charging output comprises the charging voltage output by the charger. 4. The system of claim 3 , wherein the one or more control devices are configured to control the charging output of the charger based at least in part on a charging voltage limit. 5. The system of claim 1 , wherein the charging output comprises a charging current output by the charger. 6. The battery system of claim 1 , wherein the one or more control devices are configured to open the plurality of battery string contactors prior to charging the plurality of battery strings. 7. The battery system of claim 1 , wherein the one or more control devices are configured to first couple the battery string having a lowest battery string voltage to the charger. 8. A method for connecting a plurality of battery strings to a charger, each battery string including two or more batteries or battery cells connected in a series or parallel configuration, the method comprising: coupling a first battery string of a plurality of battery strings to a charger, wherein the charger comprises a smart charger; monitoring a string current for the first battery string; controlling, by one or more control devices, a charging voltage provided by the charger based at least in part on the string current for the first battery string, wherein the charging voltage is set to a minimum string voltage and increases based on feedback from the plurality of battery strings; and coupling one or more second battery strings to the charger when the charging voltage is greater than a voltage of the second string, wherein coupling one or more second battery strings comprises sequentially coupling each of the one or more second battery strings to the charger when the charging voltage exceeds the battery string voltage associated with the second battery string. 9. The method of claim 8 , wherein coupling one or more second battery strings to the charger comprises closing a contactor coupled in series with the one or more second battery strings. 10. The method of claim 8 , wherein the charging voltage is controlled based at least in part on a charging voltage limit. 11. The method of claim 8 , wherein the charging voltage is controlled based at least in part on a string current limit. 12. The method of claim 8 , wherein the first battery string has a lowest battery string voltage of the plurality of battery strings. 13. A smart charger system for charging a plurality of battery strings, each battery string including two or more batteries or battery cells connected in a series or parallel configuration, the smart charger system comprising: a charger operable to provide a charging voltage to each of the plurality of battery strings via a contactor coupled in series with the battery string; one or more string current sensors, each string current sensor configured to monitor a string current of one or more of the plurality of battery strings; a controller configured to control the charging voltage of the charger based at least in part on the string current of one or more of the plurality of battery strings to keep the string current less than or equal to a maximum string current limit, wherein the charging voltage is set to a minimum string voltage and increases based on feedback from the plurality of battery strings; wherein the controller is configured to sequentially couple the charger to the plurality of battery strings based at least in part on the charging voltage of the charger such that the charger is coupled to each battery string when the charging voltage exceeds a battery string voltage associated with the battery string; wherein the controller is configured to first couple the battery string having a lowest battery string voltage to the charger; and wherein the controller is configured to sequentially couple the charger to the plurality of battery strings in ascending order of battery string voltage. 14. The smart charger system of claim 13 , wherein the controller is configured to control the charging voltage of the charger to keep the charging voltage less than or equal to a charging voltage limit.